diff options
author | Brian <[email protected]> | 2007-02-22 16:14:02 -0700 |
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committer | Brian <[email protected]> | 2007-02-22 16:14:02 -0700 |
commit | da46353056c2e20f81ef620efe81d5d076ab0c12 (patch) | |
tree | 3d2f8b43d6f243bcc61fdb716d19009f9fbb5d6b /src/mesa/shader/nvvertexec.c | |
parent | 13e3b21b16b14112b416f3ee5742fc7bd1b2d823 (diff) |
Remove obsolete files.
Diffstat (limited to 'src/mesa/shader/nvvertexec.c')
-rw-r--r-- | src/mesa/shader/nvvertexec.c | 1029 |
1 files changed, 0 insertions, 1029 deletions
diff --git a/src/mesa/shader/nvvertexec.c b/src/mesa/shader/nvvertexec.c deleted file mode 100644 index 7dc0edbd9e6..00000000000 --- a/src/mesa/shader/nvvertexec.c +++ /dev/null @@ -1,1029 +0,0 @@ -/* - * Mesa 3-D graphics library - * Version: 6.5.2 - * - * Copyright (C) 1999-2006 Brian Paul All Rights Reserved. - * - * 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 - * the rights to use, copy, modify, merge, publish, distribute, sublicense, - * 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 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 NONINFRINGEMENT. IN NO EVENT SHALL - * BRIAN PAUL 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. - */ - -/** - * \file nvvertexec.c - * Code to execute vertex programs. - * \author Brian Paul - */ - -#include "glheader.h" -#include "context.h" -#include "imports.h" -#include "macros.h" -#include "nvvertexec.h" -#include "prog_parameter.h" -#include "prog_statevars.h" -#include "prog_instruction.h" -#include "math/m_matrix.h" - - -static const GLboolean DEBUG_VERT = GL_FALSE; - -static const GLfloat ZeroVec[4] = { 0.0F, 0.0F, 0.0F, 0.0F }; - - -/** - * Load/initialize the vertex program registers which need to be set - * per-vertex. - */ -void -_mesa_init_vp_per_vertex_registers(GLcontext *ctx, struct vp_machine *machine) -{ - /* Input registers get initialized from the current vertex attribs */ - MEMCPY(machine->Inputs, ctx->Current.Attrib, - MAX_VERTEX_PROGRAM_ATTRIBS * 4 * sizeof(GLfloat)); - - if (ctx->VertexProgram.Current->IsNVProgram) { - GLuint i; - /* Output/result regs are initialized to [0,0,0,1] */ - for (i = 0; i < MAX_NV_VERTEX_PROGRAM_OUTPUTS; i++) { - ASSIGN_4V(machine->Outputs[i], 0.0F, 0.0F, 0.0F, 1.0F); - } - /* Temp regs are initialized to [0,0,0,0] */ - for (i = 0; i < MAX_NV_VERTEX_PROGRAM_TEMPS; i++) { - ASSIGN_4V(machine->Temporaries[i], 0.0F, 0.0F, 0.0F, 0.0F); - } - for (i = 0; i < MAX_VERTEX_PROGRAM_ADDRESS_REGS; i++) { - ASSIGN_4V(machine->AddressReg[i], 0, 0, 0, 0); - } - } - - /* init condition codes */ - machine->CondCodes[0] = COND_EQ; - machine->CondCodes[1] = COND_EQ; - machine->CondCodes[2] = COND_EQ; - machine->CondCodes[3] = COND_EQ; -} - - - -/** - * Copy the 16 elements of a matrix into four consecutive program - * registers starting at 'pos'. - */ -static void -load_matrix(GLfloat registers[][4], GLuint pos, const GLfloat mat[16]) -{ - GLuint i; - for (i = 0; i < 4; i++) { - registers[pos + i][0] = mat[0 + i]; - registers[pos + i][1] = mat[4 + i]; - registers[pos + i][2] = mat[8 + i]; - registers[pos + i][3] = mat[12 + i]; - } -} - - -/** - * As above, but transpose the matrix. - */ -static void -load_transpose_matrix(GLfloat registers[][4], GLuint pos, - const GLfloat mat[16]) -{ - MEMCPY(registers[pos], mat, 16 * sizeof(GLfloat)); -} - - -/** - * Load program parameter registers with tracked matrices (if NV program) - * or GL state values (if ARB program). - * This needs to be done per glBegin/glEnd, not per-vertex. - */ -void -_mesa_init_vp_per_primitive_registers(GLcontext *ctx) -{ - if (ctx->VertexProgram.Current->IsNVProgram) { - GLuint i; - - for (i = 0; i < MAX_NV_VERTEX_PROGRAM_PARAMS / 4; i++) { - /* point 'mat' at source matrix */ - GLmatrix *mat; - if (ctx->VertexProgram.TrackMatrix[i] == GL_MODELVIEW) { - mat = ctx->ModelviewMatrixStack.Top; - } - else if (ctx->VertexProgram.TrackMatrix[i] == GL_PROJECTION) { - mat = ctx->ProjectionMatrixStack.Top; - } - else if (ctx->VertexProgram.TrackMatrix[i] == GL_TEXTURE) { - mat = ctx->TextureMatrixStack[ctx->Texture.CurrentUnit].Top; - } - else if (ctx->VertexProgram.TrackMatrix[i] == GL_COLOR) { - mat = ctx->ColorMatrixStack.Top; - } - else if (ctx->VertexProgram.TrackMatrix[i]==GL_MODELVIEW_PROJECTION_NV) { - /* XXX verify the combined matrix is up to date */ - mat = &ctx->_ModelProjectMatrix; - } - else if (ctx->VertexProgram.TrackMatrix[i] >= GL_MATRIX0_NV && - ctx->VertexProgram.TrackMatrix[i] <= GL_MATRIX7_NV) { - GLuint n = ctx->VertexProgram.TrackMatrix[i] - GL_MATRIX0_NV; - ASSERT(n < MAX_PROGRAM_MATRICES); - mat = ctx->ProgramMatrixStack[n].Top; - } - else { - /* no matrix is tracked, but we leave the register values as-is */ - assert(ctx->VertexProgram.TrackMatrix[i] == GL_NONE); - continue; - } - - /* load the matrix values into sequential registers */ - if (ctx->VertexProgram.TrackMatrixTransform[i] == GL_IDENTITY_NV) { - load_matrix(ctx->VertexProgram.Parameters, i*4, mat->m); - } - else if (ctx->VertexProgram.TrackMatrixTransform[i] == GL_INVERSE_NV) { - _math_matrix_analyse(mat); /* update the inverse */ - ASSERT(!_math_matrix_is_dirty(mat)); - load_matrix(ctx->VertexProgram.Parameters, i*4, mat->inv); - } - else if (ctx->VertexProgram.TrackMatrixTransform[i] == GL_TRANSPOSE_NV) { - load_transpose_matrix(ctx->VertexProgram.Parameters, i*4, mat->m); - } - else { - assert(ctx->VertexProgram.TrackMatrixTransform[i] - == GL_INVERSE_TRANSPOSE_NV); - _math_matrix_analyse(mat); /* update the inverse */ - ASSERT(!_math_matrix_is_dirty(mat)); - load_transpose_matrix(ctx->VertexProgram.Parameters, i*4, mat->inv); - } - } - } - else { - /* ARB vertex program */ - if (ctx->VertexProgram.Current->Base.Parameters) { - /* Grab the state GL state and put into registers */ - _mesa_load_state_parameters(ctx, - ctx->VertexProgram.Current->Base.Parameters); - } - } -} - - - -/** - * For debugging. Dump the current vertex program machine registers. - */ -void -_mesa_dump_vp_state( const struct gl_vertex_program_state *state, - const struct vp_machine *machine) -{ - int i; - _mesa_printf("VertexIn:\n"); - for (i = 0; i < MAX_NV_VERTEX_PROGRAM_INPUTS; i++) { - _mesa_printf("%d: %f %f %f %f ", i, - machine->Inputs[i][0], - machine->Inputs[i][1], - machine->Inputs[i][2], - machine->Inputs[i][3]); - } - _mesa_printf("\n"); - - _mesa_printf("VertexOut:\n"); - for (i = 0; i < MAX_NV_VERTEX_PROGRAM_OUTPUTS; i++) { - _mesa_printf("%d: %f %f %f %f ", i, - machine->Outputs[i][0], - machine->Outputs[i][1], - machine->Outputs[i][2], - machine->Outputs[i][3]); - } - _mesa_printf("\n"); - - _mesa_printf("Registers:\n"); - for (i = 0; i < MAX_PROGRAM_TEMPS; i++) { - _mesa_printf("%d: %f %f %f %f ", i, - machine->Temporaries[i][0], - machine->Temporaries[i][1], - machine->Temporaries[i][2], - machine->Temporaries[i][3]); - } - _mesa_printf("\n"); - - _mesa_printf("Parameters:\n"); - for (i = 0; i < MAX_NV_VERTEX_PROGRAM_PARAMS; i++) { - _mesa_printf("%d: %f %f %f %f ", i, - state->Parameters[i][0], - state->Parameters[i][1], - state->Parameters[i][2], - state->Parameters[i][3]); - } - _mesa_printf("\n"); -} - - - -/** - * Return a pointer to the 4-element float vector specified by the given - * source register. - */ -static INLINE const GLfloat * -get_register_pointer( GLcontext *ctx, - const struct prog_src_register *source, - struct vp_machine *machine, - const struct gl_vertex_program *program ) -{ - if (source->RelAddr) { - const GLint reg = source->Index + machine->AddressReg[0][0]; - ASSERT(source->File == PROGRAM_ENV_PARAM || - source->File == PROGRAM_STATE_VAR || - source->File == PROGRAM_LOCAL_PARAM); - if (reg < 0 || reg > MAX_NV_VERTEX_PROGRAM_PARAMS) - return ZeroVec; - else if (source->File == PROGRAM_ENV_PARAM) - return ctx->VertexProgram.Parameters[reg]; - else { - ASSERT(source->File == PROGRAM_LOCAL_PARAM || - source->File == PROGRAM_STATE_VAR); - return program->Base.Parameters->ParameterValues[reg]; - } - } - else { - switch (source->File) { - case PROGRAM_TEMPORARY: - ASSERT(source->Index < MAX_PROGRAM_TEMPS); - return machine->Temporaries[source->Index]; - case PROGRAM_INPUT: - ASSERT(source->Index < VERT_ATTRIB_MAX); - return machine->Inputs[source->Index]; - case PROGRAM_OUTPUT: - /* This is only needed for the PRINT instruction */ - ASSERT(source->Index < VERT_RESULT_MAX); - return machine->Outputs[source->Index]; - case PROGRAM_LOCAL_PARAM: - ASSERT(source->Index < MAX_PROGRAM_LOCAL_PARAMS); - return program->Base.LocalParams[source->Index]; - case PROGRAM_ENV_PARAM: - ASSERT(source->Index < MAX_NV_VERTEX_PROGRAM_PARAMS); - return ctx->VertexProgram.Parameters[source->Index]; - case PROGRAM_STATE_VAR: - /* Fallthrough */ - case PROGRAM_CONSTANT: - /* Fallthrough */ - case PROGRAM_UNIFORM: - /* Fallthrough */ - case PROGRAM_NAMED_PARAM: - ASSERT(source->Index < program->Base.Parameters->NumParameters); - return program->Base.Parameters->ParameterValues[source->Index]; - default: - _mesa_problem(NULL, - "Bad source register file in get_register_pointer"); - return NULL; - } - } - return NULL; -} - - -/** - * Fetch a 4-element float vector from the given source register. - * Apply swizzling and negating as needed. - */ -static INLINE void -fetch_vector4( GLcontext *ctx, - const struct prog_src_register *source, - struct vp_machine *machine, - const struct gl_vertex_program *program, - GLfloat result[4] ) -{ - const GLfloat *src = get_register_pointer(ctx, source, machine, program); - ASSERT(src); - result[0] = src[GET_SWZ(source->Swizzle, 0)]; - result[1] = src[GET_SWZ(source->Swizzle, 1)]; - result[2] = src[GET_SWZ(source->Swizzle, 2)]; - result[3] = src[GET_SWZ(source->Swizzle, 3)]; - if (source->NegateBase) { - result[0] = -result[0]; - result[1] = -result[1]; - result[2] = -result[2]; - result[3] = -result[3]; - } -} - - - -/** - * As above, but only return result[0] element. - */ -static INLINE void -fetch_vector1( GLcontext *ctx, - const struct prog_src_register *source, - struct vp_machine *machine, - const struct gl_vertex_program *program, - GLfloat result[4] ) -{ - const GLfloat *src = get_register_pointer(ctx, source, machine, program); - ASSERT(src); - result[0] = src[GET_SWZ(source->Swizzle, 0)]; - if (source->NegateBase) { - result[0] = -result[0]; - } -} - - -/** - * Test value against zero and return GT, LT, EQ or UN if NaN. - */ -static INLINE GLuint -generate_cc( float value ) -{ - if (value != value) - return COND_UN; /* NaN */ - if (value > 0.0F) - return COND_GT; - if (value < 0.0F) - return COND_LT; - return COND_EQ; -} - - -/** - * Test if the ccMaskRule is satisfied by the given condition code. - * Used to mask destination writes according to the current condition code. - */ -static INLINE GLboolean -test_cc(GLuint condCode, GLuint ccMaskRule) -{ - switch (ccMaskRule) { - case COND_EQ: return (condCode == COND_EQ); - case COND_NE: return (condCode != COND_EQ); - case COND_LT: return (condCode == COND_LT); - case COND_GE: return (condCode == COND_GT || condCode == COND_EQ); - case COND_LE: return (condCode == COND_LT || condCode == COND_EQ); - case COND_GT: return (condCode == COND_GT); - case COND_TR: return GL_TRUE; - case COND_FL: return GL_FALSE; - default: return GL_TRUE; - } -} - - -/** - * Evaluate the 4 condition codes against a predicate and return GL_TRUE - * or GL_FALSE to indicate result. - */ -static INLINE GLboolean -eval_condition(const struct vp_machine *machine, - const struct prog_instruction *inst) -{ - const GLuint swizzle = inst->DstReg.CondSwizzle; - const GLuint condMask = inst->DstReg.CondMask; - if (test_cc(machine->CondCodes[GET_SWZ(swizzle, 0)], condMask) || - test_cc(machine->CondCodes[GET_SWZ(swizzle, 1)], condMask) || - test_cc(machine->CondCodes[GET_SWZ(swizzle, 2)], condMask) || - test_cc(machine->CondCodes[GET_SWZ(swizzle, 3)], condMask)) { - return GL_TRUE; - } - else { - return GL_FALSE; - } -} - - -/** - * Store 4 floats into a register. - */ -static void -store_vector4( const struct prog_instruction *inst, - struct vp_machine *machine, - const GLfloat value[4] ) -{ - const struct prog_dst_register *dest = &(inst->DstReg); - GLuint writeMask = dest->WriteMask; - GLfloat *dst; - - switch (dest->File) { - case PROGRAM_OUTPUT: - ASSERT(dest->Index < VERT_RESULT_MAX); - dst = machine->Outputs[dest->Index]; - break; - case PROGRAM_TEMPORARY: - ASSERT(dest->Index < MAX_PROGRAM_TEMPS); - dst = machine->Temporaries[dest->Index]; - break; - case PROGRAM_ENV_PARAM: - /* Only for VP state programs */ - { - /* a slight hack */ - GET_CURRENT_CONTEXT(ctx); - ASSERT(dest->Index < MAX_PROGRAM_ENV_PARAMS); - dst = ctx->VertexProgram.Parameters[dest->Index]; - } - break; - default: - _mesa_problem(NULL, "Invalid register file in store_vector4(file=%d)", - dest->File); - return; - } - - if (dest->WriteMask & WRITEMASK_X) - dst[0] = value[0]; - if (dest->WriteMask & WRITEMASK_Y) - dst[1] = value[1]; - if (dest->WriteMask & WRITEMASK_Z) - dst[2] = value[2]; - if (dest->WriteMask & WRITEMASK_W) - dst[3] = value[3]; - - if (inst->CondUpdate) { - if (writeMask & WRITEMASK_X) - machine->CondCodes[0] = generate_cc(value[0]); - if (writeMask & WRITEMASK_Y) - machine->CondCodes[1] = generate_cc(value[1]); - if (writeMask & WRITEMASK_Z) - machine->CondCodes[2] = generate_cc(value[2]); - if (writeMask & WRITEMASK_W) - machine->CondCodes[3] = generate_cc(value[3]); - } -} - - -/** - * Set x to positive or negative infinity. - */ -#if defined(USE_IEEE) || defined(_WIN32) -#define SET_POS_INFINITY(x) ( *((GLuint *) (void *)&x) = 0x7F800000 ) -#define SET_NEG_INFINITY(x) ( *((GLuint *) (void *)&x) = 0xFF800000 ) -#elif defined(VMS) -#define SET_POS_INFINITY(x) x = __MAXFLOAT -#define SET_NEG_INFINITY(x) x = -__MAXFLOAT -#else -#define SET_POS_INFINITY(x) x = (GLfloat) HUGE_VAL -#define SET_NEG_INFINITY(x) x = (GLfloat) -HUGE_VAL -#endif - -#define SET_FLOAT_BITS(x, bits) ((fi_type *) (void *) &(x))->i = bits - - -/** - * Execute the given vertex program - */ -void -_mesa_exec_vertex_program(GLcontext *ctx, - struct vp_machine *machine, - const struct gl_vertex_program *program) -{ - const GLuint maxInst = program->Base.NumInstructions; - GLuint pc; - - ctx->_CurrentProgram = GL_VERTEX_PROGRAM_ARB; /* or NV, doesn't matter */ - - /* If the program is position invariant, multiply the input position - * by the MVP matrix and store in the vertex position result register. - */ - if (ctx->VertexProgram.Current->IsPositionInvariant) { - TRANSFORM_POINT( machine->Outputs[VERT_RESULT_HPOS], - ctx->_ModelProjectMatrix.m, - machine->Inputs[VERT_ATTRIB_POS]); - - /* XXX: This could go elsewhere */ - ctx->VertexProgram.Current->Base.OutputsWritten |= VERT_BIT_POS; - } - - for (pc = 0; pc < maxInst; pc++) { - const struct prog_instruction *inst = program->Base.Instructions + pc; - - if (ctx->VertexProgram.CallbackEnabled && - ctx->VertexProgram.Callback) { - ctx->VertexProgram.CurrentPosition = inst->StringPos; - ctx->VertexProgram.Callback(program->Base.Target, - ctx->VertexProgram.CallbackData); - } - - switch (inst->Opcode) { - case OPCODE_ABS: /* GL_NV_vertex_program1_1 */ - { - GLfloat t[4]; - fetch_vector4( ctx, &inst->SrcReg[0], machine, program, t ); - if (t[0] < 0.0) t[0] = -t[0]; - if (t[1] < 0.0) t[1] = -t[1]; - if (t[2] < 0.0) t[2] = -t[2]; - if (t[3] < 0.0) t[3] = -t[3]; - store_vector4( inst, machine, t ); - } - break; - case OPCODE_ADD: - { - GLfloat t[4], u[4], sum[4]; - fetch_vector4( ctx, &inst->SrcReg[0], machine, program, t ); - fetch_vector4( ctx, &inst->SrcReg[1], machine, program, u ); - sum[0] = t[0] + u[0]; - sum[1] = t[1] + u[1]; - sum[2] = t[2] + u[2]; - sum[3] = t[3] + u[3]; - store_vector4( inst, machine, sum ); - } - break; - case OPCODE_ARA: - break; - case OPCODE_ARL: - { - GLfloat t[4]; - fetch_vector4( ctx, &inst->SrcReg[0], machine, program, t ); - machine->AddressReg[0][0] = (GLint) FLOORF(t[0]); - } - break; - case OPCODE_ARL_NV: - break; - case OPCODE_ARR: - break; - case OPCODE_BGNLOOP: - /* no-op */ - break; - case OPCODE_ENDLOOP: - /* subtract 1 here since pc is incremented by for(pc) loop */ - pc = inst->BranchTarget - 1; /* go to matching BNGLOOP */ - break; - case OPCODE_BRA: /* branch (conditional) */ - /* fall-through */ - case OPCODE_BRK: /* break out of loop (conditional) */ - /* fall-through */ - case OPCODE_CONT: /* continue loop (conditional) */ - if (eval_condition(machine, inst)) { - /* take branch */ - /* Subtract 1 here since we'll do pc++ at end of for-loop */ - pc = inst->BranchTarget - 1; - } - break; - case OPCODE_CAL: /* Call subroutine (conditional) */ - if (eval_condition(machine, inst)) { - /* call the subroutine */ - if (machine->StackDepth >= MAX_PROGRAM_CALL_DEPTH) { - return; /* abort execution */ - } - machine->CallStack[machine->StackDepth++] = pc + 1; - pc = inst->BranchTarget; /* XXX - 1 ??? */ - } - break; - case OPCODE_CMP: - { - GLfloat a[4], b[4], c[4], result[4]; - fetch_vector4( ctx, &inst->SrcReg[0], machine, program, a ); - fetch_vector4( ctx, &inst->SrcReg[1], machine, program, b ); - fetch_vector4( ctx, &inst->SrcReg[2], machine, program, c ); - result[0] = a[0] < 0.0F ? b[0] : c[0]; - result[1] = a[1] < 0.0F ? b[1] : c[1]; - result[2] = a[2] < 0.0F ? b[2] : c[2]; - result[3] = a[3] < 0.0F ? b[3] : c[3]; - store_vector4( inst, machine, result ); - } - break; - case OPCODE_COS: - { - GLfloat a[4], result[4]; - fetch_vector1( ctx, &inst->SrcReg[0], machine, program, a ); - result[0] = result[1] = result[2] = result[3] - = (GLfloat) _mesa_cos(a[0]); - store_vector4( inst, machine, result ); - } - break; - case OPCODE_DDX: - /* fallthrough */ - case OPCODE_DDY: - _mesa_problem(ctx, "DDX/DDY not allowed in vertex programs"); - break; - - case OPCODE_DP3: - { - GLfloat t[4], u[4], dot[4]; - fetch_vector4( ctx, &inst->SrcReg[0], machine, program, t ); - fetch_vector4( ctx, &inst->SrcReg[1], machine, program, u ); - dot[0] = t[0] * u[0] + t[1] * u[1] + t[2] * u[2]; - dot[1] = dot[2] = dot[3] = dot[0]; - store_vector4( inst, machine, dot ); - } - break; - case OPCODE_DP4: - { - GLfloat t[4], u[4], dot[4]; - fetch_vector4( ctx, &inst->SrcReg[0], machine, program, t ); - fetch_vector4( ctx, &inst->SrcReg[1], machine, program, u ); - dot[0] = t[0] * u[0] + t[1] * u[1] + t[2] * u[2] + t[3] * u[3]; - dot[1] = dot[2] = dot[3] = dot[0]; - store_vector4( inst, machine, dot ); - } - break; - case OPCODE_DPH: - { - GLfloat t[4], u[4], dot[4]; - fetch_vector4( ctx, &inst->SrcReg[0], machine, program, t ); - fetch_vector4( ctx, &inst->SrcReg[1], machine, program, u ); - dot[0] = t[0] * u[0] + t[1] * u[1] + t[2] * u[2] + u[3]; - dot[1] = dot[2] = dot[3] = dot[0]; - store_vector4( inst, machine, dot ); - } - break; - case OPCODE_DST: - { - GLfloat t[4], u[4], dst[4]; - fetch_vector4( ctx, &inst->SrcReg[0], machine, program, t ); - fetch_vector4( ctx, &inst->SrcReg[1], machine, program, u ); - dst[0] = 1.0F; - dst[1] = t[1] * u[1]; - dst[2] = t[2]; - dst[3] = u[3]; - store_vector4( inst, machine, dst ); - } - break; - case OPCODE_EXP: - { - GLfloat t[4], q[4], floor_t0; - fetch_vector1( ctx, &inst->SrcReg[0], machine, program, t ); - floor_t0 = FLOORF(t[0]); - if (floor_t0 > FLT_MAX_EXP) { - SET_POS_INFINITY(q[0]); - SET_POS_INFINITY(q[2]); - } - else if (floor_t0 < FLT_MIN_EXP) { - q[0] = 0.0F; - q[2] = 0.0F; - } - else { -#ifdef USE_IEEE - GLint ii = (GLint) floor_t0; - ii = (ii < 23) + 0x3f800000; - SET_FLOAT_BITS(q[0], ii); - q[0] = *((GLfloat *) (void *)&ii); -#else - q[0] = (GLfloat) pow(2.0, floor_t0); -#endif - q[2] = (GLfloat) (q[0] * LOG2(q[1])); - } - q[1] = t[0] - floor_t0; - q[3] = 1.0F; - store_vector4( inst, machine, q ); - } - break; - case OPCODE_EX2: /* GL_ARB_vertex_program */ - { - GLfloat t[4]; - fetch_vector1( ctx, &inst->SrcReg[0], machine, program, t ); - t[0] = t[1] = t[2] = t[3] = (GLfloat)_mesa_pow(2.0, t[0]); - store_vector4( inst, machine, t ); - } - break; - case OPCODE_FLR: /* GL_ARB_vertex_program */ - { - GLfloat t[4]; - fetch_vector4( ctx, &inst->SrcReg[0], machine, program, t ); - t[0] = FLOORF(t[0]); - t[1] = FLOORF(t[1]); - t[2] = FLOORF(t[2]); - t[3] = FLOORF(t[3]); - store_vector4( inst, machine, t ); - } - break; - case OPCODE_FRC: /* GL_ARB_vertex_program */ - { - GLfloat t[4]; - fetch_vector4( ctx, &inst->SrcReg[0], machine, program, t ); - t[0] = t[0] - FLOORF(t[0]); - t[1] = t[1] - FLOORF(t[1]); - t[2] = t[2] - FLOORF(t[2]); - t[3] = t[3] - FLOORF(t[3]); - store_vector4( inst, machine, t ); - } - break; - case OPCODE_IF: - if (eval_condition(machine, inst)) { - /* do if-clause (just continue execution) */ - } - else { - /* go to the instruction after ELSE or ENDIF */ - assert(inst->BranchTarget >= 0); - pc = inst->BranchTarget - 1; - } - break; - case OPCODE_ELSE: - /* goto ENDIF */ - assert(inst->BranchTarget >= 0); - pc = inst->BranchTarget - 1; - break; - case OPCODE_ENDIF: - /* nothing */ - break; - case OPCODE_MOV: - { - GLfloat t[4]; - fetch_vector4( ctx, &inst->SrcReg[0], machine, program, t ); - store_vector4( inst, machine, t ); - } - break; - case OPCODE_LIT: - { - const GLfloat epsilon = 1.0F / 256.0F; /* per NV spec */ - GLfloat t[4], lit[4]; - fetch_vector4( ctx, &inst->SrcReg[0], machine, program, t ); - t[0] = MAX2(t[0], 0.0F); - t[1] = MAX2(t[1], 0.0F); - t[3] = CLAMP(t[3], -(128.0F - epsilon), (128.0F - epsilon)); - lit[0] = 1.0; - lit[1] = t[0]; - lit[2] = (t[0] > 0.0) ? (GLfloat) _mesa_pow(t[1], t[3]) : 0.0F; - lit[3] = 1.0; - store_vector4( inst, machine, lit ); - } - break; - case OPCODE_LOG: - { - GLfloat t[4], q[4], abs_t0; - fetch_vector1( ctx, &inst->SrcReg[0], machine, program, t ); - abs_t0 = FABSF(t[0]); - if (abs_t0 != 0.0F) { - /* Since we really can't handle infinite values on VMS - * like other OSes we'll use __MAXFLOAT to represent - * infinity. This may need some tweaking. - */ -#ifdef VMS - if (abs_t0 == __MAXFLOAT) -#else - if (IS_INF_OR_NAN(abs_t0)) -#endif - { - SET_POS_INFINITY(q[0]); - q[1] = 1.0F; - SET_POS_INFINITY(q[2]); - } - else { - int exponent; - GLfloat mantissa = FREXPF(t[0], &exponent); - q[0] = (GLfloat) (exponent - 1); - q[1] = (GLfloat) (2.0 * mantissa); /* map [.5, 1) -> [1, 2) */ - q[2] = (GLfloat) (q[0] + LOG2(q[1])); - } - } - else { - SET_NEG_INFINITY(q[0]); - q[1] = 1.0F; - SET_NEG_INFINITY(q[2]); - } - q[3] = 1.0; - store_vector4( inst, machine, q ); - } - break; - case OPCODE_MAD: - { - GLfloat t[4], u[4], v[4], sum[4]; - fetch_vector4( ctx, &inst->SrcReg[0], machine, program, t ); - fetch_vector4( ctx, &inst->SrcReg[1], machine, program, u ); - fetch_vector4( ctx, &inst->SrcReg[2], machine, program, v ); - sum[0] = t[0] * u[0] + v[0]; - sum[1] = t[1] * u[1] + v[1]; - sum[2] = t[2] * u[2] + v[2]; - sum[3] = t[3] * u[3] + v[3]; - store_vector4( inst, machine, sum ); - } - break; - case OPCODE_MAX: - { - GLfloat t[4], u[4], max[4]; - fetch_vector4( ctx, &inst->SrcReg[0], machine, program, t ); - fetch_vector4( ctx, &inst->SrcReg[1], machine, program, u ); - max[0] = (t[0] > u[0]) ? t[0] : u[0]; - max[1] = (t[1] > u[1]) ? t[1] : u[1]; - max[2] = (t[2] > u[2]) ? t[2] : u[2]; - max[3] = (t[3] > u[3]) ? t[3] : u[3]; - store_vector4( inst, machine, max ); - } - break; - case OPCODE_MIN: - { - GLfloat t[4], u[4], min[4]; - fetch_vector4( ctx, &inst->SrcReg[0], machine, program, t ); - fetch_vector4( ctx, &inst->SrcReg[1], machine, program, u ); - min[0] = (t[0] < u[0]) ? t[0] : u[0]; - min[1] = (t[1] < u[1]) ? t[1] : u[1]; - min[2] = (t[2] < u[2]) ? t[2] : u[2]; - min[3] = (t[3] < u[3]) ? t[3] : u[3]; - store_vector4( inst, machine, min ); - } - break; - case OPCODE_MUL: - { - GLfloat t[4], u[4], prod[4]; - fetch_vector4( ctx, &inst->SrcReg[0], machine, program, t ); - fetch_vector4( ctx, &inst->SrcReg[1], machine, program, u ); - prod[0] = t[0] * u[0]; - prod[1] = t[1] * u[1]; - prod[2] = t[2] * u[2]; - prod[3] = t[3] * u[3]; - store_vector4( inst, machine, prod ); - } - break; - case OPCODE_RCP: - { - GLfloat t[4]; - fetch_vector1( ctx, &inst->SrcReg[0], machine, program, t ); - if (t[0] != 1.0F) - t[0] = 1.0F / t[0]; /* div by zero is infinity! */ - t[1] = t[2] = t[3] = t[0]; - store_vector4( inst, machine, t ); - } - break; - case OPCODE_RSQ: - { - GLfloat t[4]; - fetch_vector1( ctx, &inst->SrcReg[0], machine, program, t ); - t[0] = INV_SQRTF(FABSF(t[0])); - t[1] = t[2] = t[3] = t[0]; - store_vector4( inst, machine, t ); - } - break; - case OPCODE_SLT: - { - GLfloat t[4], u[4], slt[4]; - fetch_vector4( ctx, &inst->SrcReg[0], machine, program, t ); - fetch_vector4( ctx, &inst->SrcReg[1], machine, program, u ); - slt[0] = (t[0] < u[0]) ? 1.0F : 0.0F; - slt[1] = (t[1] < u[1]) ? 1.0F : 0.0F; - slt[2] = (t[2] < u[2]) ? 1.0F : 0.0F; - slt[3] = (t[3] < u[3]) ? 1.0F : 0.0F; - store_vector4( inst, machine, slt ); - } - break; - case OPCODE_SGE: - { - GLfloat t[4], u[4], sge[4]; - fetch_vector4( ctx, &inst->SrcReg[0], machine, program, t ); - fetch_vector4( ctx, &inst->SrcReg[1], machine, program, u ); - sge[0] = (t[0] >= u[0]) ? 1.0F : 0.0F; - sge[1] = (t[1] >= u[1]) ? 1.0F : 0.0F; - sge[2] = (t[2] >= u[2]) ? 1.0F : 0.0F; - sge[3] = (t[3] >= u[3]) ? 1.0F : 0.0F; - store_vector4( inst, machine, sge ); - } - break; - case OPCODE_SGT: /* set on greater */ - { - GLfloat a[4], b[4], result[4]; - fetch_vector4( ctx, &inst->SrcReg[0], machine, program, a ); - fetch_vector4( ctx, &inst->SrcReg[1], machine, program, b ); - result[0] = (a[0] > b[0]) ? 1.0F : 0.0F; - result[1] = (a[1] > b[1]) ? 1.0F : 0.0F; - result[2] = (a[2] > b[2]) ? 1.0F : 0.0F; - result[3] = (a[3] > b[3]) ? 1.0F : 0.0F; - store_vector4( inst, machine, result ); - if (DEBUG_VERT) { - printf("SGT %g %g %g %g\n", - result[0], result[1], result[2], result[3]); - } - } - break; - case OPCODE_RCC: - { - GLfloat t[4], u; - fetch_vector1( ctx, &inst->SrcReg[0], machine, program, t ); - if (t[0] == 1.0F) - u = 1.0F; - else - u = 1.0F / t[0]; - if (u > 0.0F) { - if (u > 1.884467e+019F) { - u = 1.884467e+019F; /* IEEE 32-bit binary value 0x5F800000 */ - } - else if (u < 5.42101e-020F) { - u = 5.42101e-020F; /* IEEE 32-bit binary value 0x1F800000 */ - } - } - else { - if (u < -1.884467e+019F) { - u = -1.884467e+019F; /* IEEE 32-bit binary value 0xDF800000 */ - } - else if (u > -5.42101e-020F) { - u = -5.42101e-020F; /* IEEE 32-bit binary value 0x9F800000 */ - } - } - t[0] = t[1] = t[2] = t[3] = u; - store_vector4( inst, machine, t ); - } - break; - case OPCODE_SUB: /* GL_NV_vertex_program1_1 */ - { - GLfloat t[4], u[4], sum[4]; - fetch_vector4( ctx, &inst->SrcReg[0], machine, program, t ); - fetch_vector4( ctx, &inst->SrcReg[1], machine, program, u ); - sum[0] = t[0] - u[0]; - sum[1] = t[1] - u[1]; - sum[2] = t[2] - u[2]; - sum[3] = t[3] - u[3]; - store_vector4( inst, machine, sum ); - } - break; - case OPCODE_LG2: /* GL_ARB_vertex_program */ - { - GLfloat t[4]; - fetch_vector1( ctx, &inst->SrcReg[0], machine, program, t ); - t[0] = t[1] = t[2] = t[3] = LOG2(t[0]); - store_vector4( inst, machine, t ); - } - break; - case OPCODE_POW: /* GL_ARB_vertex_program */ - { - GLfloat t[4], u[4]; - fetch_vector1( ctx, &inst->SrcReg[0], machine, program, t ); - fetch_vector1( ctx, &inst->SrcReg[1], machine, program, u ); - t[0] = t[1] = t[2] = t[3] = (GLfloat)_mesa_pow(t[0], u[0]); - store_vector4( inst, machine, t ); - } - break; - case OPCODE_XPD: /* GL_ARB_vertex_program */ - { - GLfloat t[4], u[4], cross[4]; - fetch_vector4( ctx, &inst->SrcReg[0], machine, program, t ); - fetch_vector4( ctx, &inst->SrcReg[1], machine, program, u ); - cross[0] = t[1] * u[2] - t[2] * u[1]; - cross[1] = t[2] * u[0] - t[0] * u[2]; - cross[2] = t[0] * u[1] - t[1] * u[0]; - cross[3] = 0.0; - store_vector4( inst, machine, cross ); - } - break; - case OPCODE_SWZ: /* GL_ARB_vertex_program */ - { - const struct prog_src_register *source = &inst->SrcReg[0]; - const GLfloat *src = get_register_pointer(ctx, source, - machine, program); - GLfloat result[4]; - GLuint i; - - /* do extended swizzling here */ - for (i = 0; i < 4; i++) { - const GLuint swz = GET_SWZ(source->Swizzle, i); - if (swz == SWIZZLE_ZERO) - result[i] = 0.0; - else if (swz == SWIZZLE_ONE) - result[i] = 1.0; - else { - ASSERT(swz >= 0); - ASSERT(swz <= 3); - result[i] = src[swz]; - } - if (source->NegateBase & (1 << i)) - result[i] = -result[i]; - } - store_vector4( inst, machine, result ); - } - break; - case OPCODE_PRINT: - if (inst->SrcReg[0].File) { - GLfloat t[4]; - fetch_vector4( ctx, &inst->SrcReg[0], machine, program, t ); - _mesa_printf("%s%g, %g, %g, %g\n", - (char *) inst->Data, t[0], t[1], t[2], t[3]); - } - else { - _mesa_printf("%s\n", (char *) inst->Data); - } - break; - case OPCODE_END: - ctx->_CurrentProgram = 0; - return; - case OPCODE_NOP: - break; - default: - /* bad instruction opcode */ - _mesa_problem(ctx, "Bad VP Opcode in _mesa_exec_vertex_program"); - ctx->_CurrentProgram = 0; - return; - } /* switch */ - } /* for */ - - ctx->_CurrentProgram = 0; -} - - -/** - * Execute a vertex state program. - * \sa _mesa_ExecuteProgramNV - */ -void -_mesa_exec_vertex_state_program(GLcontext *ctx, - struct gl_vertex_program *vprog, - const GLfloat *params) -{ - struct vp_machine machine; - _mesa_init_vp_per_vertex_registers(ctx, &machine); - _mesa_init_vp_per_primitive_registers(ctx); - COPY_4V(machine.Inputs[VERT_ATTRIB_POS], params); - _mesa_exec_vertex_program(ctx, &machine, vprog); -} |