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path: root/src/gallium/drivers/r300/r300_emit.c
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/*
 * Copyright 2008 Corbin Simpson <MostAwesomeDude@gmail.com>
 * Copyright 2009 Marek Olšák <maraeo@gmail.com>
 *
 * Permission is hereby granted, free of charge, to any person obtaining a
 * copy of this software and associated documentation files (the "Software"),
 * to deal in the Software without restriction, including without limitation
 * on the rights to use, copy, modify, merge, publish, distribute, sub
 * license, and/or sell copies of the Software, and to permit persons to whom
 * the Software is furnished to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice (including the next
 * paragraph) shall be included in all copies or substantial portions of the
 * Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL
 * THE AUTHOR(S) AND/OR THEIR SUPPLIERS BE LIABLE FOR ANY CLAIM,
 * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
 * OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
 * USE OR OTHER DEALINGS IN THE SOFTWARE. */

/* r300_emit: Functions for emitting state. */

#include "util/u_format.h"
#include "util/u_math.h"
#include "util/u_simple_list.h"

#include "r300_context.h"
#include "r300_cs.h"
#include "r300_emit.h"
#include "r300_fs.h"
#include "r300_screen.h"
#include "r300_screen_buffer.h"
#include "r300_vs.h"

void r300_emit_blend_state(struct r300_context* r300,
                           unsigned size, void* state)
{
    struct r300_blend_state* blend = (struct r300_blend_state*)state;
    struct pipe_framebuffer_state* fb =
        (struct pipe_framebuffer_state*)r300->fb_state.state;
    CS_LOCALS(r300);

    BEGIN_CS(size);
    OUT_CS_REG(R300_RB3D_ROPCNTL, blend->rop);
    OUT_CS_REG_SEQ(R300_RB3D_CBLEND, 3);
    if (fb->nr_cbufs) {
        OUT_CS(blend->blend_control);
        OUT_CS(blend->alpha_blend_control);
        OUT_CS(blend->color_channel_mask);
    } else {
        OUT_CS(0);
        OUT_CS(0);
        OUT_CS(0);
        /* XXX also disable fastfill here once it's supported */
    }
    OUT_CS_REG(R300_RB3D_DITHER_CTL, blend->dither);
    END_CS;
}

void r300_emit_blend_color_state(struct r300_context* r300,
                                 unsigned size, void* state)
{
    struct r300_blend_color_state* bc = (struct r300_blend_color_state*)state;
    CS_LOCALS(r300);

    if (r300->screen->caps.is_r500) {
        BEGIN_CS(size);
        OUT_CS_REG_SEQ(R500_RB3D_CONSTANT_COLOR_AR, 2);
        OUT_CS(bc->blend_color_red_alpha);
        OUT_CS(bc->blend_color_green_blue);
        END_CS;
    } else {
        BEGIN_CS(size);
        OUT_CS_REG(R300_RB3D_BLEND_COLOR, bc->blend_color);
        END_CS;
    }
}

void r300_emit_clip_state(struct r300_context* r300,
                          unsigned size, void* state)
{
    struct pipe_clip_state* clip = (struct pipe_clip_state*)state;
    int i;
    CS_LOCALS(r300);

    if (r300->screen->caps.has_tcl) {
        BEGIN_CS(size);
        OUT_CS_REG(R300_VAP_PVS_VECTOR_INDX_REG,
                (r300->screen->caps.is_r500 ?
                 R500_PVS_UCP_START : R300_PVS_UCP_START));
        OUT_CS_ONE_REG(R300_VAP_PVS_UPLOAD_DATA, 6 * 4);
        for (i = 0; i < 6; i++) {
            OUT_CS_32F(clip->ucp[i][0]);
            OUT_CS_32F(clip->ucp[i][1]);
            OUT_CS_32F(clip->ucp[i][2]);
            OUT_CS_32F(clip->ucp[i][3]);
        }
        OUT_CS_REG(R300_VAP_CLIP_CNTL, ((1 << clip->nr) - 1) |
                R300_PS_UCP_MODE_CLIP_AS_TRIFAN);
        END_CS;
    } else {
        BEGIN_CS(size);
        OUT_CS_REG(R300_VAP_CLIP_CNTL, R300_CLIP_DISABLE);
        END_CS;
    }

}

void r300_emit_dsa_state(struct r300_context* r300, unsigned size, void* state)
{
    struct r300_dsa_state* dsa = (struct r300_dsa_state*)state;
    struct pipe_framebuffer_state* fb =
        (struct pipe_framebuffer_state*)r300->fb_state.state;
    struct pipe_stencil_ref stencil_ref = r300->stencil_ref;
    CS_LOCALS(r300);

    BEGIN_CS(size);
    OUT_CS_REG(R300_FG_ALPHA_FUNC, dsa->alpha_function);
    OUT_CS_REG_SEQ(R300_ZB_CNTL, 3);

    if (fb->zsbuf) {
        OUT_CS(dsa->z_buffer_control);
        OUT_CS(dsa->z_stencil_control);
    } else {
        OUT_CS(0);
        OUT_CS(0);
    }

    OUT_CS(dsa->stencil_ref_mask | stencil_ref.ref_value[0]);

    if (r300->screen->caps.is_r500) {
        OUT_CS_REG(R500_ZB_STENCILREFMASK_BF, dsa->stencil_ref_bf | stencil_ref.ref_value[1]);
    }
    END_CS;
}

static const float * get_shader_constant(
    struct r300_context * r300,
    struct rc_constant * constant,
    struct r300_constant_buffer * externals)
{
    struct r300_viewport_state* viewport = r300->viewport_state.state;
    struct r300_textures_state* texstate = r300->textures_state.state;
    static float vec[4] = { 0.0, 0.0, 0.0, 1.0 };
    struct pipe_texture *tex;

    switch(constant->Type) {
        case RC_CONSTANT_EXTERNAL:
            return externals->constants[constant->u.External];

        case RC_CONSTANT_IMMEDIATE:
            return constant->u.Immediate;

        case RC_CONSTANT_STATE:
            switch (constant->u.State[0]) {
                /* Factor for converting rectangle coords to
                 * normalized coords. Should only show up on non-r500. */
                case RC_STATE_R300_TEXRECT_FACTOR:
                    tex = texstate->fragment_sampler_views[constant->u.State[1]]->texture;
                    vec[0] = 1.0 / tex->width0;
                    vec[1] = 1.0 / tex->height0;
                    break;

                /* Texture compare-fail value. Shouldn't ever show up, but if
                 * it does, we'll be ready. */
                case RC_STATE_SHADOW_AMBIENT:
                    vec[3] = 0;
                    break;

                case RC_STATE_R300_VIEWPORT_SCALE:
                    vec[0] = viewport->xscale;
                    vec[1] = viewport->yscale;
                    vec[2] = viewport->zscale;
                    break;

                case RC_STATE_R300_VIEWPORT_OFFSET:
                    vec[0] = viewport->xoffset;
                    vec[1] = viewport->yoffset;
                    vec[2] = viewport->zoffset;
                    break;

                default:
                    fprintf(stderr, "r300: Implementation error: "
                        "Unknown RC_CONSTANT type %d\n", constant->u.State[0]);
            }
            break;

        default:
            fprintf(stderr, "r300: Implementation error: "
                "Unhandled constant type %d\n", constant->Type);
    }

    /* This should either be (0, 0, 0, 1), which should be a relatively safe
     * RGBA or STRQ value, or it could be one of the RC_CONSTANT_STATE
     * state factors. */
    return vec;
}

/* Convert a normal single-precision float into the 7.16 format
 * used by the R300 fragment shader.
 */
static uint32_t pack_float24(float f)
{
    union {
        float fl;
        uint32_t u;
    } u;
    float mantissa;
    int exponent;
    uint32_t float24 = 0;

    if (f == 0.0)
        return 0;

    u.fl = f;

    mantissa = frexpf(f, &exponent);

    /* Handle -ve */
    if (mantissa < 0) {
        float24 |= (1 << 23);
        mantissa = mantissa * -1.0;
    }
    /* Handle exponent, bias of 63 */
    exponent += 62;
    float24 |= (exponent << 16);
    /* Kill 7 LSB of mantissa */
    float24 |= (u.u & 0x7FFFFF) >> 7;

    return float24;
}

void r300_emit_fragment_program_code(struct r300_context* r300,
                                     struct rX00_fragment_program_code* generic_code)
{
    struct r300_fragment_program_code * code = &generic_code->code.r300;
    int i;
    CS_LOCALS(r300);

    BEGIN_CS(15 +
             code->alu.length * 4 +
             (code->tex.length ? (1 + code->tex.length) : 0));

    OUT_CS_REG(R300_US_CONFIG, code->config);
    OUT_CS_REG(R300_US_PIXSIZE, code->pixsize);
    OUT_CS_REG(R300_US_CODE_OFFSET, code->code_offset);

    OUT_CS_REG_SEQ(R300_US_CODE_ADDR_0, 4);
    for(i = 0; i < 4; ++i)
        OUT_CS(code->code_addr[i]);

    OUT_CS_REG_SEQ(R300_US_ALU_RGB_INST_0, code->alu.length);
    for (i = 0; i < code->alu.length; i++)
        OUT_CS(code->alu.inst[i].rgb_inst);

    OUT_CS_REG_SEQ(R300_US_ALU_RGB_ADDR_0, code->alu.length);
    for (i = 0; i < code->alu.length; i++)
        OUT_CS(code->alu.inst[i].rgb_addr);

    OUT_CS_REG_SEQ(R300_US_ALU_ALPHA_INST_0, code->alu.length);
    for (i = 0; i < code->alu.length; i++)
        OUT_CS(code->alu.inst[i].alpha_inst);

    OUT_CS_REG_SEQ(R300_US_ALU_ALPHA_ADDR_0, code->alu.length);
    for (i = 0; i < code->alu.length; i++)
        OUT_CS(code->alu.inst[i].alpha_addr);

    if (code->tex.length) {
        OUT_CS_REG_SEQ(R300_US_TEX_INST_0, code->tex.length);
        for(i = 0; i < code->tex.length; ++i)
            OUT_CS(code->tex.inst[i]);
    }

    END_CS;
}

void r300_emit_fs_constant_buffer(struct r300_context* r300,
                                  struct rc_constant_list* constants)
{
    int i;
    CS_LOCALS(r300);

    if (constants->Count == 0)
        return;

    BEGIN_CS(constants->Count * 4 + 1);
    OUT_CS_REG_SEQ(R300_PFS_PARAM_0_X, constants->Count * 4);
    for(i = 0; i < constants->Count; ++i) {
        const float * data = get_shader_constant(r300,
                                                 &constants->Constants[i],
                                                 &r300->shader_constants[PIPE_SHADER_FRAGMENT]);
        OUT_CS(pack_float24(data[0]));
        OUT_CS(pack_float24(data[1]));
        OUT_CS(pack_float24(data[2]));
        OUT_CS(pack_float24(data[3]));
    }
    END_CS;
}

static void r300_emit_fragment_depth_config(struct r300_context* r300,
                                            struct r300_fragment_shader* fs)
{
    CS_LOCALS(r300);

    BEGIN_CS(4);
    if (r300_fragment_shader_writes_depth(fs)) {
        OUT_CS_REG(R300_FG_DEPTH_SRC, R300_FG_DEPTH_SRC_SHADER);
        OUT_CS_REG(R300_US_W_FMT, R300_W_FMT_W24 | R300_W_SRC_US);
    } else {
        OUT_CS_REG(R300_FG_DEPTH_SRC, R300_FG_DEPTH_SRC_SCAN);
        OUT_CS_REG(R300_US_W_FMT, R300_W_FMT_W0 | R300_W_SRC_US);
    }
    END_CS;
}

void r500_emit_fragment_program_code(struct r300_context* r300,
                                     struct rX00_fragment_program_code* generic_code)
{
    struct r500_fragment_program_code * code = &generic_code->code.r500;
    int i;
    CS_LOCALS(r300);

    BEGIN_CS(13 +
             ((code->inst_end + 1) * 6));
    OUT_CS_REG(R500_US_CONFIG, R500_ZERO_TIMES_ANYTHING_EQUALS_ZERO);
    OUT_CS_REG(R500_US_PIXSIZE, code->max_temp_idx);
    OUT_CS_REG(R500_US_CODE_RANGE,
               R500_US_CODE_RANGE_ADDR(0) | R500_US_CODE_RANGE_SIZE(code->inst_end));
    OUT_CS_REG(R500_US_CODE_OFFSET, 0);
    OUT_CS_REG(R500_US_CODE_ADDR,
               R500_US_CODE_START_ADDR(0) | R500_US_CODE_END_ADDR(code->inst_end));

    OUT_CS_REG(R500_GA_US_VECTOR_INDEX, R500_GA_US_VECTOR_INDEX_TYPE_INSTR);
    OUT_CS_ONE_REG(R500_GA_US_VECTOR_DATA, (code->inst_end + 1) * 6);
    for (i = 0; i <= code->inst_end; i++) {
        OUT_CS(code->inst[i].inst0);
        OUT_CS(code->inst[i].inst1);
        OUT_CS(code->inst[i].inst2);
        OUT_CS(code->inst[i].inst3);
        OUT_CS(code->inst[i].inst4);
        OUT_CS(code->inst[i].inst5);
    }

    END_CS;
}

void r500_emit_fs_constant_buffer(struct r300_context* r300,
                                  struct rc_constant_list* constants)
{
    int i;
    CS_LOCALS(r300);

    if (constants->Count == 0)
        return;

    BEGIN_CS(constants->Count * 4 + 3);
    OUT_CS_REG(R500_GA_US_VECTOR_INDEX, R500_GA_US_VECTOR_INDEX_TYPE_CONST);
    OUT_CS_ONE_REG(R500_GA_US_VECTOR_DATA, constants->Count * 4);
    for (i = 0; i < constants->Count; i++) {
        const float * data = get_shader_constant(r300,
                                                 &constants->Constants[i],
                                                 &r300->shader_constants[PIPE_SHADER_FRAGMENT]);
        OUT_CS_32F(data[0]);
        OUT_CS_32F(data[1]);
        OUT_CS_32F(data[2]);
        OUT_CS_32F(data[3]);
    }
    END_CS;
}

void r300_emit_fb_state(struct r300_context* r300, unsigned size, void* state)
{
    struct pipe_framebuffer_state* fb = (struct pipe_framebuffer_state*)state;
    struct r300_texture* tex;
    struct pipe_surface* surf;
    int i;
    CS_LOCALS(r300);

    BEGIN_CS(size);

    /* Flush and free renderbuffer caches. */
    OUT_CS_REG(R300_RB3D_DSTCACHE_CTLSTAT,
        R300_RB3D_DSTCACHE_CTLSTAT_DC_FREE_FREE_3D_TAGS |
        R300_RB3D_DSTCACHE_CTLSTAT_DC_FLUSH_FLUSH_DIRTY_3D);
    OUT_CS_REG(R300_ZB_ZCACHE_CTLSTAT,
        R300_ZB_ZCACHE_CTLSTAT_ZC_FLUSH_FLUSH_AND_FREE |
        R300_ZB_ZCACHE_CTLSTAT_ZC_FREE_FREE);

    /* Set the number of colorbuffers. */
    if (fb->nr_cbufs > 1) {
        if (r300->screen->caps.is_r500) {
            OUT_CS_REG(R300_RB3D_CCTL,
                R300_RB3D_CCTL_NUM_MULTIWRITES(fb->nr_cbufs) |
                R300_RB3D_CCTL_INDEPENDENT_COLORFORMAT_ENABLE_ENABLE);
        } else {
            OUT_CS_REG(R300_RB3D_CCTL,
                R300_RB3D_CCTL_NUM_MULTIWRITES(fb->nr_cbufs));
        }
    } else {
        OUT_CS_REG(R300_RB3D_CCTL, 0x0);
    }

    /* Set up colorbuffers. */
    for (i = 0; i < fb->nr_cbufs; i++) {
        surf = fb->cbufs[i];
        tex = r300_texture(surf->texture);
        assert(tex && tex->buffer && "cbuf is marked, but NULL!");

        OUT_CS_REG_SEQ(R300_RB3D_COLOROFFSET0 + (4 * i), 1);
        OUT_CS_TEX_RELOC(tex, surf->offset, 0, RADEON_GEM_DOMAIN_VRAM, 0);

        OUT_CS_REG_SEQ(R300_RB3D_COLORPITCH0 + (4 * i), 1);
        OUT_CS_TEX_RELOC(tex, tex->fb_state.colorpitch[surf->level],
                     0, RADEON_GEM_DOMAIN_VRAM, 0);

        OUT_CS_REG(R300_US_OUT_FMT_0 + (4 * i), tex->fb_state.us_out_fmt);
    }
    for (; i < 4; i++) {
        OUT_CS_REG(R300_US_OUT_FMT_0 + (4 * i), R300_US_OUT_FMT_UNUSED);
    }

    /* Set up a zbuffer. */
    if (fb->zsbuf) {
        surf = fb->zsbuf;
        tex = r300_texture(surf->texture);
        assert(tex && tex->buffer && "zsbuf is marked, but NULL!");

        OUT_CS_REG_SEQ(R300_ZB_DEPTHOFFSET, 1);
        OUT_CS_TEX_RELOC(tex, surf->offset, 0, RADEON_GEM_DOMAIN_VRAM, 0);

        OUT_CS_REG(R300_ZB_FORMAT, tex->fb_state.zb_format);

        OUT_CS_REG_SEQ(R300_ZB_DEPTHPITCH, 1);
        OUT_CS_TEX_RELOC(tex, tex->fb_state.depthpitch[surf->level],
                     0, RADEON_GEM_DOMAIN_VRAM, 0);
    }

    OUT_CS_REG(R300_GA_POINT_MINMAX,
        (MAX2(fb->width, fb->height) * 6) << R300_GA_POINT_MINMAX_MAX_SHIFT);
    END_CS;
}

void r300_emit_query_start(struct r300_context *r300)
{
    struct r300_query *query = r300->query_current;
    CS_LOCALS(r300);

    if (!query)
	return;

    BEGIN_CS(4);
    if (r300->screen->caps.family == CHIP_FAMILY_RV530) {
        OUT_CS_REG(RV530_FG_ZBREG_DEST, RV530_FG_ZBREG_DEST_PIPE_SELECT_ALL);
    } else {
        OUT_CS_REG(R300_SU_REG_DEST, R300_RASTER_PIPE_SELECT_ALL);
    }
    OUT_CS_REG(R300_ZB_ZPASS_DATA, 0);
    END_CS;
    query->begin_emitted = TRUE;
}


static void r300_emit_query_finish(struct r300_context *r300,
                                   struct r300_query *query)
{
    struct r300_capabilities* caps = &r300->screen->caps;
    CS_LOCALS(r300);

    assert(caps->num_frag_pipes);

    BEGIN_CS(6 * caps->num_frag_pipes + 2);
    /* I'm not so sure I like this switch, but it's hard to be elegant
     * when there's so many special cases...
     *
     * So here's the basic idea. For each pipe, enable writes to it only,
     * then put out the relocation for ZPASS_ADDR, taking into account a
     * 4-byte offset for each pipe. RV380 and older are special; they have
     * only two pipes, and the second pipe's enable is on bit 3, not bit 1,
     * so there's a chipset cap for that. */
    switch (caps->num_frag_pipes) {
        case 4:
            /* pipe 3 only */
            OUT_CS_REG(R300_SU_REG_DEST, 1 << 3);
            OUT_CS_REG_SEQ(R300_ZB_ZPASS_ADDR, 1);
            OUT_CS_BUF_RELOC(r300->oqbo, query->offset + (sizeof(uint32_t) * 3),
                    0, RADEON_GEM_DOMAIN_GTT, 0);
        case 3:
            /* pipe 2 only */
            OUT_CS_REG(R300_SU_REG_DEST, 1 << 2);
            OUT_CS_REG_SEQ(R300_ZB_ZPASS_ADDR, 1);
            OUT_CS_BUF_RELOC(r300->oqbo, query->offset + (sizeof(uint32_t) * 2),
                    0, RADEON_GEM_DOMAIN_GTT, 0);
        case 2:
            /* pipe 1 only */
            /* As mentioned above, accomodate RV380 and older. */
            OUT_CS_REG(R300_SU_REG_DEST,
                    1 << (caps->high_second_pipe ? 3 : 1));
            OUT_CS_REG_SEQ(R300_ZB_ZPASS_ADDR, 1);
            OUT_CS_BUF_RELOC(r300->oqbo, query->offset + (sizeof(uint32_t) * 1),
                    0, RADEON_GEM_DOMAIN_GTT, 0);
        case 1:
            /* pipe 0 only */
            OUT_CS_REG(R300_SU_REG_DEST, 1 << 0);
            OUT_CS_REG_SEQ(R300_ZB_ZPASS_ADDR, 1);
            OUT_CS_BUF_RELOC(r300->oqbo, query->offset + (sizeof(uint32_t) * 0),
                    0, RADEON_GEM_DOMAIN_GTT, 0);
            break;
        default:
            fprintf(stderr, "r300: Implementation error: Chipset reports %d"
                    " pixel pipes!\n", caps->num_frag_pipes);
            abort();
    }

    /* And, finally, reset it to normal... */
    OUT_CS_REG(R300_SU_REG_DEST, 0xF);
    END_CS;
}

static void rv530_emit_query_single(struct r300_context *r300,
                                    struct r300_query *query)
{
    CS_LOCALS(r300);

    BEGIN_CS(8);
    OUT_CS_REG(RV530_FG_ZBREG_DEST, RV530_FG_ZBREG_DEST_PIPE_SELECT_0);
    OUT_CS_REG_SEQ(R300_ZB_ZPASS_ADDR, 1);
    OUT_CS_BUF_RELOC(r300->oqbo, query->offset, 0, RADEON_GEM_DOMAIN_GTT, 0);
    OUT_CS_REG(RV530_FG_ZBREG_DEST, RV530_FG_ZBREG_DEST_PIPE_SELECT_ALL);
    END_CS;
}

static void rv530_emit_query_double(struct r300_context *r300,
                                    struct r300_query *query)
{
    CS_LOCALS(r300);

    BEGIN_CS(14);
    OUT_CS_REG(RV530_FG_ZBREG_DEST, RV530_FG_ZBREG_DEST_PIPE_SELECT_0);
    OUT_CS_REG_SEQ(R300_ZB_ZPASS_ADDR, 1);
    OUT_CS_BUF_RELOC(r300->oqbo, query->offset, 0, RADEON_GEM_DOMAIN_GTT, 0);
    OUT_CS_REG(RV530_FG_ZBREG_DEST, RV530_FG_ZBREG_DEST_PIPE_SELECT_1);
    OUT_CS_REG_SEQ(R300_ZB_ZPASS_ADDR, 1);
    OUT_CS_BUF_RELOC(r300->oqbo, query->offset + sizeof(uint32_t), 0, RADEON_GEM_DOMAIN_GTT, 0);
    OUT_CS_REG(RV530_FG_ZBREG_DEST, RV530_FG_ZBREG_DEST_PIPE_SELECT_ALL);
    END_CS;
}

void r300_emit_query_end(struct r300_context* r300)
{
    struct r300_capabilities *caps = &r300->screen->caps;
    struct r300_query *query = r300->query_current;

    if (!query)
	return;

    if (query->begin_emitted == FALSE)
        return;

    if (caps->family == CHIP_FAMILY_RV530) {
        if (caps->num_z_pipes == 2)
            rv530_emit_query_double(r300, query);
        else
            rv530_emit_query_single(r300, query);
    } else 
        r300_emit_query_finish(r300, query);
}

void r300_emit_rs_state(struct r300_context* r300, unsigned size, void* state)
{
    struct r300_rs_state* rs = (struct r300_rs_state*)state;
    float scale, offset;
    CS_LOCALS(r300);

    BEGIN_CS(size);
    OUT_CS_REG(R300_VAP_CNTL_STATUS, rs->vap_control_status);

    OUT_CS_REG(R300_GB_AA_CONFIG, rs->antialiasing_config);

    OUT_CS_REG(R300_GA_POINT_SIZE, rs->point_size);
    OUT_CS_REG(R300_GA_LINE_CNTL, rs->line_control);

    if (rs->polygon_offset_enable) {
        scale = rs->depth_scale * 12;
        offset = rs->depth_offset;

        switch (r300->zbuffer_bpp) {
            case 16:
                offset *= 4;
                break;
            case 24:
                offset *= 2;
                break;
        }

        OUT_CS_REG_SEQ(R300_SU_POLY_OFFSET_FRONT_SCALE, 4);
        OUT_CS_32F(scale);
        OUT_CS_32F(offset);
        OUT_CS_32F(scale);
        OUT_CS_32F(offset);
    }

    OUT_CS_REG_SEQ(R300_SU_POLY_OFFSET_ENABLE, 2);
    OUT_CS(rs->polygon_offset_enable);
    OUT_CS(rs->cull_mode);
    OUT_CS_REG(R300_GA_LINE_STIPPLE_CONFIG, rs->line_stipple_config);
    OUT_CS_REG(R300_GA_LINE_STIPPLE_VALUE, rs->line_stipple_value);
    OUT_CS_REG(R300_GA_POLY_MODE, rs->polygon_mode);
    END_CS;
}

void r300_emit_rs_block_state(struct r300_context* r300,
                              unsigned size, void* state)
{
    struct r300_rs_block* rs = (struct r300_rs_block*)state;
    unsigned i;
    /* It's the same for both INST and IP tables */
    unsigned count = (rs->inst_count & R300_RS_INST_COUNT_MASK) + 1;
    CS_LOCALS(r300);

    DBG(r300, DBG_DRAW, "r300: RS emit:\n");

    BEGIN_CS(size);
    if (r300->screen->caps.is_r500) {
        OUT_CS_REG_SEQ(R500_RS_IP_0, count);
    } else {
        OUT_CS_REG_SEQ(R300_RS_IP_0, count);
    }
    for (i = 0; i < count; i++) {
        OUT_CS(rs->ip[i]);
        DBG(r300, DBG_DRAW, "    : ip %d: 0x%08x\n", i, rs->ip[i]);
    }

    OUT_CS_REG_SEQ(R300_RS_COUNT, 2);
    OUT_CS(rs->count);
    OUT_CS(rs->inst_count);

    if (r300->screen->caps.is_r500) {
        OUT_CS_REG_SEQ(R500_RS_INST_0, count);
    } else {
        OUT_CS_REG_SEQ(R300_RS_INST_0, count);
    }
    for (i = 0; i < count; i++) {
        OUT_CS(rs->inst[i]);
        DBG(r300, DBG_DRAW, "    : inst %d: 0x%08x\n", i, rs->inst[i]);
    }

    DBG(r300, DBG_DRAW, "    : count: 0x%08x inst_count: 0x%08x\n",
        rs->count, rs->inst_count);

    END_CS;
}

void r300_emit_scissor_state(struct r300_context* r300,
                             unsigned size, void* state)
{
    unsigned minx, miny, maxx, maxy;
    uint32_t top_left, bottom_right;
    struct pipe_scissor_state* scissor = (struct pipe_scissor_state*)state;
    struct pipe_framebuffer_state* fb =
        (struct pipe_framebuffer_state*)r300->fb_state.state;
    CS_LOCALS(r300);

    minx = miny = 0;
    maxx = fb->width;
    maxy = fb->height;

    if (r300->scissor_enabled) {
        minx = MAX2(minx, scissor->minx);
        miny = MAX2(miny, scissor->miny);
        maxx = MIN2(maxx, scissor->maxx);
        maxy = MIN2(maxy, scissor->maxy);
    }

    /* Special case for zero-area scissor.
     *
     * We can't allow the variables maxx and maxy to be zero because they are
     * subtracted from later in the code, which would cause emitting ~0 and
     * making the kernel checker angry.
     *
     * Let's consider we change maxx and maxy to 1, which is effectively
     * a one-pixel area. We must then change minx and miny to a number which is
     * greater than 1 to get the zero area back. */
    if (!maxx || !maxy) {
        minx = 2;
        miny = 2;
        maxx = 1;
        maxy = 1;
    }

    if (r300->screen->caps.is_r500) {
        top_left =
            (minx << R300_SCISSORS_X_SHIFT) |
            (miny << R300_SCISSORS_Y_SHIFT);
        bottom_right =
            ((maxx - 1) << R300_SCISSORS_X_SHIFT) |
            ((maxy - 1) << R300_SCISSORS_Y_SHIFT);
    } else {
        /* Offset of 1440 in non-R500 chipsets. */
        top_left =
            ((minx + 1440) << R300_SCISSORS_X_SHIFT) |
            ((miny + 1440) << R300_SCISSORS_Y_SHIFT);
        bottom_right =
            (((maxx - 1) + 1440) << R300_SCISSORS_X_SHIFT) |
            (((maxy - 1) + 1440) << R300_SCISSORS_Y_SHIFT);
    }

    BEGIN_CS(size);
    OUT_CS_REG_SEQ(R300_SC_SCISSORS_TL, 2);
    OUT_CS(top_left);
    OUT_CS(bottom_right);
    END_CS;
}

void r300_emit_textures_state(struct r300_context *r300,
                              unsigned size, void *state)
{
    struct r300_textures_state *allstate = (struct r300_textures_state*)state;
    struct r300_texture_sampler_state *texstate;
    unsigned i;
    CS_LOCALS(r300);

    BEGIN_CS(size);
    OUT_CS_REG(R300_TX_ENABLE, allstate->tx_enable);

    for (i = 0; i < allstate->count; i++) {
        if ((1 << i) & allstate->tx_enable) {
            texstate = &allstate->regs[i];

            OUT_CS_REG(R300_TX_FILTER0_0 + (i * 4), texstate->filter[0]);
            OUT_CS_REG(R300_TX_FILTER1_0 + (i * 4), texstate->filter[1]);
            OUT_CS_REG(R300_TX_BORDER_COLOR_0 + (i * 4),
                       texstate->border_color);

            OUT_CS_REG(R300_TX_FORMAT0_0 + (i * 4), texstate->format[0]);
            OUT_CS_REG(R300_TX_FORMAT1_0 + (i * 4), texstate->format[1]);
            OUT_CS_REG(R300_TX_FORMAT2_0 + (i * 4), texstate->format[2]);

            OUT_CS_REG_SEQ(R300_TX_OFFSET_0 + (i * 4), 1);
            OUT_CS_TEX_RELOC(r300_texture(allstate->fragment_sampler_views[i]->texture),
                             texstate->tile_config,
                             RADEON_GEM_DOMAIN_GTT | RADEON_GEM_DOMAIN_VRAM, 0, 0);
        }
    }
    END_CS;
}

void r300_emit_aos(struct r300_context* r300, unsigned offset)
{
    struct pipe_vertex_buffer *vb1, *vb2, *vbuf = r300->vertex_buffer;
    struct pipe_vertex_element *velem = r300->velems->velem;
    int i;
    unsigned size1, size2, aos_count = r300->velems->count;
    unsigned packet_size = (aos_count * 3 + 1) / 2;
    CS_LOCALS(r300);

    BEGIN_CS(2 + packet_size + aos_count * 2);
    OUT_CS_PKT3(R300_PACKET3_3D_LOAD_VBPNTR, packet_size);
    OUT_CS(aos_count);

    for (i = 0; i < aos_count - 1; i += 2) {
        vb1 = &vbuf[velem[i].vertex_buffer_index];
        vb2 = &vbuf[velem[i+1].vertex_buffer_index];
        size1 = util_format_get_blocksize(velem[i].src_format);
        size2 = util_format_get_blocksize(velem[i+1].src_format);

        OUT_CS(R300_VBPNTR_SIZE0(size1) | R300_VBPNTR_STRIDE0(vb1->stride) |
               R300_VBPNTR_SIZE1(size2) | R300_VBPNTR_STRIDE1(vb2->stride));
        OUT_CS(vb1->buffer_offset + velem[i].src_offset   + offset * vb1->stride);
        OUT_CS(vb2->buffer_offset + velem[i+1].src_offset + offset * vb2->stride);
    }

    if (aos_count & 1) {
        vb1 = &vbuf[velem[i].vertex_buffer_index];
        size1 = util_format_get_blocksize(velem[i].src_format);

        OUT_CS(R300_VBPNTR_SIZE0(size1) | R300_VBPNTR_STRIDE0(vb1->stride));
        OUT_CS(vb1->buffer_offset + velem[i].src_offset + offset * vb1->stride);
    }

    for (i = 0; i < aos_count; i++) {
        OUT_CS_BUF_RELOC_NO_OFFSET(vbuf[velem[i].vertex_buffer_index].buffer,
				   RADEON_GEM_DOMAIN_GTT, 0, 0);
    }
    END_CS;
}

void r300_emit_vertex_buffer(struct r300_context* r300)
{
    CS_LOCALS(r300);

    DBG(r300, DBG_DRAW, "r300: Preparing vertex buffer %p for render, "
            "vertex size %d\n", r300->vbo,
            r300->vertex_info.size);
    /* Set the pointer to our vertex buffer. The emitted values are this:
     * PACKET3 [3D_LOAD_VBPNTR]
     * COUNT   [1]
     * FORMAT  [size | stride << 8]
     * OFFSET  [offset into BO]
     * VBPNTR  [relocated BO]
     */
    BEGIN_CS(7);
    OUT_CS_PKT3(R300_PACKET3_3D_LOAD_VBPNTR, 3);
    OUT_CS(1);
    OUT_CS(r300->vertex_info.size |
            (r300->vertex_info.size << 8));
    OUT_CS(r300->vbo_offset);
    OUT_CS_BUF_RELOC(r300->vbo, 0, RADEON_GEM_DOMAIN_GTT, 0, 0);
    END_CS;
}

void r300_emit_vertex_stream_state(struct r300_context* r300,
                                   unsigned size, void* state)
{
    struct r300_vertex_stream_state *streams =
        (struct r300_vertex_stream_state*)state;
    unsigned i;
    CS_LOCALS(r300);

    DBG(r300, DBG_DRAW, "r300: PSC emit:\n");

    BEGIN_CS(size);
    OUT_CS_REG_SEQ(R300_VAP_PROG_STREAM_CNTL_0, streams->count);
    for (i = 0; i < streams->count; i++) {
        OUT_CS(streams->vap_prog_stream_cntl[i]);
        DBG(r300, DBG_DRAW, "    : prog_stream_cntl%d: 0x%08x\n", i,
               streams->vap_prog_stream_cntl[i]);
    }
    OUT_CS_REG_SEQ(R300_VAP_PROG_STREAM_CNTL_EXT_0, streams->count);
    for (i = 0; i < streams->count; i++) {
        OUT_CS(streams->vap_prog_stream_cntl_ext[i]);
        DBG(r300, DBG_DRAW, "    : prog_stream_cntl_ext%d: 0x%08x\n", i,
               streams->vap_prog_stream_cntl_ext[i]);
    }
    END_CS;
}

void r300_emit_vap_output_state(struct r300_context* r300,
                               unsigned size, void* state)
{
    struct r300_vap_output_state *vap_out_state =
        (struct r300_vap_output_state*)state;
    CS_LOCALS(r300);

    DBG(r300, DBG_DRAW, "r300: VAP emit:\n");

    BEGIN_CS(size);
    OUT_CS_REG_SEQ(R300_VAP_VTX_STATE_CNTL, 2);
    OUT_CS(vap_out_state->vap_vtx_state_cntl);
    OUT_CS(vap_out_state->vap_vsm_vtx_assm);
    OUT_CS_REG_SEQ(R300_VAP_OUTPUT_VTX_FMT_0, 2);
    OUT_CS(vap_out_state->vap_out_vtx_fmt[0]);
    OUT_CS(vap_out_state->vap_out_vtx_fmt[1]);
    END_CS;
}

void r300_emit_pvs_flush(struct r300_context* r300, unsigned size, void* state)
{
    CS_LOCALS(r300);

    BEGIN_CS(size);
    OUT_CS_REG(R300_VAP_PVS_STATE_FLUSH_REG, 0x0);
    END_CS;
}

void r300_emit_vs_state(struct r300_context* r300, unsigned size, void* state)
{
    struct r300_vertex_shader* vs = (struct r300_vertex_shader*)state;
    struct r300_vertex_program_code* code = &vs->code;
    struct r300_screen* r300screen = r300->screen;
    unsigned instruction_count = code->length / 4;
    unsigned i;

    unsigned vtx_mem_size = r300screen->caps.is_r500 ? 128 : 72;
    unsigned input_count = MAX2(util_bitcount(code->InputsRead), 1);
    unsigned output_count = MAX2(util_bitcount(code->OutputsWritten), 1);
    unsigned temp_count = MAX2(code->num_temporaries, 1);

    unsigned pvs_num_slots = MIN3(vtx_mem_size / input_count,
                                  vtx_mem_size / output_count, 10);
    unsigned pvs_num_controllers = MIN2(vtx_mem_size / temp_count, 6);

    CS_LOCALS(r300);

    BEGIN_CS(size);
    /* R300_VAP_PVS_CODE_CNTL_0
     * R300_VAP_PVS_CONST_CNTL
     * R300_VAP_PVS_CODE_CNTL_1
     * See the r5xx docs for instructions on how to use these. */
    OUT_CS_REG_SEQ(R300_VAP_PVS_CODE_CNTL_0, 3);
    OUT_CS(R300_PVS_FIRST_INST(0) |
            R300_PVS_XYZW_VALID_INST(instruction_count - 1) |
            R300_PVS_LAST_INST(instruction_count - 1));
    OUT_CS(R300_PVS_MAX_CONST_ADDR(code->constants.Count - 1));
    OUT_CS(instruction_count - 1);

    OUT_CS_REG(R300_VAP_PVS_VECTOR_INDX_REG, 0);
    OUT_CS_ONE_REG(R300_VAP_PVS_UPLOAD_DATA, code->length);
    for (i = 0; i < code->length; i++) {
        OUT_CS(code->body.d[i]);
    }

    OUT_CS_REG(R300_VAP_CNTL, R300_PVS_NUM_SLOTS(pvs_num_slots) |
            R300_PVS_NUM_CNTLRS(pvs_num_controllers) |
            R300_PVS_NUM_FPUS(r300screen->caps.num_vert_fpus) |
            R300_PVS_VF_MAX_VTX_NUM(12) |
            (r300screen->caps.is_r500 ? R500_TCL_STATE_OPTIMIZATION : 0));
    END_CS;
}

void r300_emit_vs_constant_buffer(struct r300_context* r300,
                                  struct rc_constant_list* constants)
{
    unsigned i;
    CS_LOCALS(r300);

    BEGIN_CS(constants->Count * 4 + 3);
    OUT_CS_REG(R300_VAP_PVS_VECTOR_INDX_REG,
               (r300->screen->caps.is_r500 ?
               R500_PVS_CONST_START : R300_PVS_CONST_START));
    OUT_CS_ONE_REG(R300_VAP_PVS_UPLOAD_DATA, constants->Count * 4);
    for (i = 0; i < constants->Count; i++) {
        const float *data = get_shader_constant(r300,
                                                &constants->Constants[i],
                                                &r300->shader_constants[PIPE_SHADER_VERTEX]);
        OUT_CS_32F(data[0]);
        OUT_CS_32F(data[1]);
        OUT_CS_32F(data[2]);
        OUT_CS_32F(data[3]);
    }
    END_CS;
}

void r300_emit_viewport_state(struct r300_context* r300,
                              unsigned size, void* state)
{
    struct r300_viewport_state* viewport = (struct r300_viewport_state*)state;
    CS_LOCALS(r300);

     BEGIN_CS(size);
     OUT_CS_REG_SEQ(R300_SE_VPORT_XSCALE, 6);
     OUT_CS_32F(viewport->xscale);
     OUT_CS_32F(viewport->xoffset);
     OUT_CS_32F(viewport->yscale);
     OUT_CS_32F(viewport->yoffset);
     OUT_CS_32F(viewport->zscale);
     OUT_CS_32F(viewport->zoffset);
     OUT_CS_REG(R300_VAP_VTE_CNTL, viewport->vte_control);
     END_CS;
}

void r300_emit_ztop_state(struct r300_context* r300,
                          unsigned size, void* state)
{
    struct r300_ztop_state* ztop = (struct r300_ztop_state*)state;
    CS_LOCALS(r300);

    BEGIN_CS(size);
    OUT_CS_REG(R300_ZB_ZTOP, ztop->z_buffer_top);
    END_CS;
}

void r300_emit_texture_cache_inval(struct r300_context* r300, unsigned size, void* state)
{
    CS_LOCALS(r300);

    BEGIN_CS(size);
    OUT_CS_REG(R300_TX_INVALTAGS, 0);
    END_CS;
}

void r300_emit_buffer_validate(struct r300_context *r300,
                               boolean do_validate_vertex_buffers,
                               struct pipe_buffer *index_buffer)
{
    struct pipe_framebuffer_state* fb =
        (struct pipe_framebuffer_state*)r300->fb_state.state;
    struct r300_textures_state *texstate =
        (struct r300_textures_state*)r300->textures_state.state;
    struct r300_texture* tex;
    struct pipe_vertex_buffer *vbuf = r300->vertex_buffer;
    struct pipe_vertex_element *velem = r300->velems->velem;
    struct pipe_buffer *pbuf;
    unsigned i;
    boolean invalid = FALSE;

    /* upload buffers first */
    if (r300->any_user_vbs) {
        r300_upload_user_buffers(r300);
        r300->any_user_vbs = false;
    }

    /* Clean out BOs. */
    r300->rws->reset_bos(r300->rws);

validate:
    /* Color buffers... */
    for (i = 0; i < fb->nr_cbufs; i++) {
        tex = r300_texture(fb->cbufs[i]->texture);
        assert(tex && tex->buffer && "cbuf is marked, but NULL!");
        if (!r300_add_texture(r300->rws, tex,
			      0, RADEON_GEM_DOMAIN_VRAM)) {
            r300->context.flush(&r300->context, 0, NULL);
            goto validate;
        }
    }
    /* ...depth buffer... */
    if (fb->zsbuf) {
        tex = r300_texture(fb->zsbuf->texture);
        assert(tex && tex->buffer && "zsbuf is marked, but NULL!");
        if (!r300_add_texture(r300->rws, tex,
			      0, RADEON_GEM_DOMAIN_VRAM)) {
            r300->context.flush(&r300->context, 0, NULL);
            goto validate;
        }
    }
    /* ...textures... */
    for (i = 0; i < texstate->count; i++) {
        if (!(texstate->tx_enable & (1 << i))) {
            continue;
        }

        tex = r300_texture(texstate->fragment_sampler_views[i]->texture);
        if (!r300_add_texture(r300->rws, tex,
			      RADEON_GEM_DOMAIN_GTT | RADEON_GEM_DOMAIN_VRAM, 0)) {
            r300->context.flush(&r300->context, 0, NULL);
            goto validate;
        }
    }
    /* ...occlusion query buffer... */
    if (r300->dirty_state & R300_NEW_QUERY) {
        if (!r300_add_buffer(r300->rws, r300->oqbo,
			     0, RADEON_GEM_DOMAIN_GTT)) {
            r300->context.flush(&r300->context, 0, NULL);
            goto validate;
        }
    }
    /* ...vertex buffer for SWTCL path... */
    if (r300->vbo) {
        if (!r300_add_buffer(r300->rws, r300->vbo,
			     RADEON_GEM_DOMAIN_GTT, 0)) {
            r300->context.flush(&r300->context, 0, NULL);
            goto validate;
        }
    }
    /* ...vertex buffers for HWTCL path... */
    if (do_validate_vertex_buffers) {
        for (i = 0; i < r300->velems->count; i++) {
            pbuf = vbuf[velem[i].vertex_buffer_index].buffer;

            if (!r300_add_buffer(r300->rws, pbuf,
				 RADEON_GEM_DOMAIN_GTT, 0)) {
		r300->context.flush(&r300->context, 0, NULL);
                goto validate;
            }
        }
    }
    /* ...and index buffer for HWTCL path. */
    if (index_buffer) {
        if (!r300_add_buffer(r300->rws, index_buffer,
			     RADEON_GEM_DOMAIN_GTT, 0)) {
            r300->context.flush(&r300->context, 0, NULL);
            goto validate;
        }
    }
    if (!r300->rws->validate(r300->rws)) {
        r300->context.flush(&r300->context, 0, NULL);
        if (invalid) {
            /* Well, hell. */
            fprintf(stderr, "r300: Stuck in validation loop, gonna quit now.\n");
            abort();
        }
        invalid = TRUE;
        goto validate;
    }
}

unsigned r300_get_num_dirty_dwords(struct r300_context *r300)
{
    struct r300_atom* atom;
    unsigned dwords = 0;

    foreach(atom, &r300->atom_list) {
        if (atom->dirty || atom->always_dirty) {
            dwords += atom->size;
        }
    }

    /* XXX This is the compensation for the non-atomized states. */
    dwords += 1024;

    return dwords;
}

/* Emit all dirty state. */
void r300_emit_dirty_state(struct r300_context* r300)
{
    struct r300_screen* r300screen = r300->screen;
    struct r300_atom* atom;

    if (r300->dirty_state & R300_NEW_QUERY) {
        r300_emit_query_start(r300);
        r300->dirty_state &= ~R300_NEW_QUERY;
    }

    foreach(atom, &r300->atom_list) {
        if (atom->dirty || atom->always_dirty) {
            atom->emit(r300, atom->size, atom->state);
            atom->dirty = FALSE;
        }
    }

    if (r300->dirty_state & R300_NEW_FRAGMENT_SHADER) {
        r300_emit_fragment_depth_config(r300, r300->fs);
        if (r300screen->caps.is_r500) {
            r500_emit_fragment_program_code(r300, &r300->fs->shader->code);
        } else {
            r300_emit_fragment_program_code(r300, &r300->fs->shader->code);
        }
        r300->dirty_state &= ~R300_NEW_FRAGMENT_SHADER;
    }

    if (r300->dirty_state & R300_NEW_FRAGMENT_SHADER_CONSTANTS) {
        if (r300screen->caps.is_r500) {
            r500_emit_fs_constant_buffer(r300,
                                         &r300->fs->shader->code.constants);
        } else {
            r300_emit_fs_constant_buffer(r300,
                                         &r300->fs->shader->code.constants);
        }
        r300->dirty_state &= ~R300_NEW_FRAGMENT_SHADER_CONSTANTS;
    }

    if (r300->dirty_state & R300_NEW_VERTEX_SHADER_CONSTANTS) {
        struct r300_vertex_shader* vs = r300->vs_state.state;
        if (vs->code.constants.Count) {
            r300_emit_vs_constant_buffer(r300, &vs->code.constants);
        }
        r300->dirty_state &= ~R300_NEW_VERTEX_SHADER_CONSTANTS;
    }

    /* XXX
    assert(r300->dirty_state == 0);
    */

    /* Emit the VBO for SWTCL. */
    if (!r300screen->caps.has_tcl) {
        r300_emit_vertex_buffer(r300);
    }

    r300->dirty_hw++;
}