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Diffstat (limited to 'libs/cairo-1.16.0/src/drm/cairo-drm-i915-private.h')
-rw-r--r-- | libs/cairo-1.16.0/src/drm/cairo-drm-i915-private.h | 1270 |
1 files changed, 1270 insertions, 0 deletions
diff --git a/libs/cairo-1.16.0/src/drm/cairo-drm-i915-private.h b/libs/cairo-1.16.0/src/drm/cairo-drm-i915-private.h new file mode 100644 index 0000000..c750cf4 --- /dev/null +++ b/libs/cairo-1.16.0/src/drm/cairo-drm-i915-private.h @@ -0,0 +1,1270 @@ +/* + * Copyright © 2006, 2009 Intel Corporation + * + * 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 (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 NONINFRINGEMENT. IN NO EVENT SHALL + * THE AUTHORS OR COPYRIGHT HOLDERS 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. + * + * Authors: + * Eric Anholt <eric@anholt.net> + * Chris Wilson <chris@chris-wilson.co.uk> + */ + +#ifndef CAIRO_DRM_I915_PRIVATE_H +#define CAIRO_DRM_I915_PRIVATE_H + +#include "cairo-types-private.h" + +#include "cairo-drm-private.h" +#include "cairo-drm-intel-private.h" +#include "cairo-drm-intel-command-private.h" +#include "cairo-drm-intel-ioctl-private.h" +#include "cairo-freelist-private.h" + +#include <setjmp.h> + +#define I915_VERBOSE 1 + +#define I915_MAX_TEX_INDIRECT 4 +#define I915_MAX_TEX_INSN 32 +#define I915_MAX_ALU_INSN 64 +#define I915_MAX_DECL_INSN 27 +#define I915_MAX_TEMPORARY 16 + +/* Each instruction is 3 dwords long, though most don't require all + * this space. Maximum of 123 instructions. Smaller maxes per insn + * type. + */ +#define _3DSTATE_PIXEL_SHADER_PROGRAM (CMD_3D|(0x1d<<24)|(0x5<<16)) + +#define REG_TYPE_R 0 /* temporary regs, no need to + * dcl, must be written before + * read -- Preserved between + * phases. + */ +#define REG_TYPE_T 1 /* Interpolated values, must be + * dcl'ed before use. + * + * 0..7: texture coord, + * 8: diffuse spec, + * 9: specular color, + * 10: fog parameter in w. + */ +#define REG_TYPE_CONST 2 /* Restriction: only one const + * can be referenced per + * instruction, though it may be + * selected for multiple inputs. + * Constants not initialized + * default to zero. + */ +#define REG_TYPE_S 3 /* sampler */ +#define REG_TYPE_OC 4 /* output color (rgba) */ +#define REG_TYPE_OD 5 /* output depth (w), xyz are + * temporaries. If not written, + * interpolated depth is used? + */ +#define REG_TYPE_U 6 /* unpreserved temporaries */ +#define REG_TYPE_MASK 0x7 +#define REG_TYPE_SHIFT 4 +#define REG_NR_MASK 0xf + +/* REG_TYPE_T: + */ +#define T_TEX0 0 +#define T_TEX1 1 +#define T_TEX2 2 +#define T_TEX3 3 +#define T_TEX4 4 +#define T_TEX5 5 +#define T_TEX6 6 +#define T_TEX7 7 +#define T_DIFFUSE 8 +#define T_SPECULAR 9 +#define T_FOG_W 10 /* interpolated fog is in W coord */ + +/* Arithmetic instructions */ + +/* .replicate_swizzle == selection and replication of a particular + * scalar channel, ie., .xxxx, .yyyy, .zzzz or .wwww + */ +#define A0_NOP (0x0<<24) /* no operation */ +#define A0_ADD (0x1<<24) /* dst = src0 + src1 */ +#define A0_MOV (0x2<<24) /* dst = src0 */ +#define A0_MUL (0x3<<24) /* dst = src0 * src1 */ +#define A0_MAD (0x4<<24) /* dst = src0 * src1 + src2 */ +#define A0_DP2ADD (0x5<<24) /* dst.xyzw = src0.xy dot src1.xy + src2.replicate_swizzle */ +#define A0_DP3 (0x6<<24) /* dst.xyzw = src0.xyz dot src1.xyz */ +#define A0_DP4 (0x7<<24) /* dst.xyzw = src0.xyzw dot src1.xyzw */ +#define A0_FRC (0x8<<24) /* dst = src0 - floor(src0) */ +#define A0_RCP (0x9<<24) /* dst.xyzw = 1/(src0.replicate_swizzle) */ +#define A0_RSQ (0xa<<24) /* dst.xyzw = 1/(sqrt(abs(src0.replicate_swizzle))) */ +#define A0_EXP (0xb<<24) /* dst.xyzw = exp2(src0.replicate_swizzle) */ +#define A0_LOG (0xc<<24) /* dst.xyzw = log2(abs(src0.replicate_swizzle)) */ +#define A0_CMP (0xd<<24) /* dst = (src0 >= 0.0) ? src1 : src2 */ +#define A0_MIN (0xe<<24) /* dst = (src0 < src1) ? src0 : src1 */ +#define A0_MAX (0xf<<24) /* dst = (src0 >= src1) ? src0 : src1 */ +#define A0_FLR (0x10<<24) /* dst = floor(src0) */ +#define A0_MOD (0x11<<24) /* dst = src0 fmod 1.0 */ +#define A0_TRC (0x12<<24) /* dst = int(src0) */ +#define A0_SGE (0x13<<24) /* dst = src0 >= src1 ? 1.0 : 0.0 */ +#define A0_SLT (0x14<<24) /* dst = src0 < src1 ? 1.0 : 0.0 */ +#define A0_DEST_SATURATE (1<<22) +#define A0_DEST_TYPE_SHIFT 19 +/* Allow: R, OC, OD, U */ +#define A0_DEST_NR_SHIFT 14 +/* Allow R: 0..15, OC,OD: 0..0, U: 0..2 */ +#define A0_DEST_CHANNEL_X (1<<10) +#define A0_DEST_CHANNEL_Y (2<<10) +#define A0_DEST_CHANNEL_Z (4<<10) +#define A0_DEST_CHANNEL_W (8<<10) +#define A0_DEST_CHANNEL_ALL (0xf<<10) +#define A0_DEST_CHANNEL_SHIFT 10 +#define A0_SRC0_TYPE_SHIFT 7 +#define A0_SRC0_NR_SHIFT 2 + +#define A0_DEST_CHANNEL_XY (A0_DEST_CHANNEL_X|A0_DEST_CHANNEL_Y) +#define A0_DEST_CHANNEL_XYZ (A0_DEST_CHANNEL_XY|A0_DEST_CHANNEL_Z) + +#define SRC_X 0 +#define SRC_Y 1 +#define SRC_Z 2 +#define SRC_W 3 +#define SRC_ZERO 4 +#define SRC_ONE 5 + +#define A1_SRC0_CHANNEL_X_NEGATE (1<<31) +#define A1_SRC0_CHANNEL_X_SHIFT 28 +#define A1_SRC0_CHANNEL_Y_NEGATE (1<<27) +#define A1_SRC0_CHANNEL_Y_SHIFT 24 +#define A1_SRC0_CHANNEL_Z_NEGATE (1<<23) +#define A1_SRC0_CHANNEL_Z_SHIFT 20 +#define A1_SRC0_CHANNEL_W_NEGATE (1<<19) +#define A1_SRC0_CHANNEL_W_SHIFT 16 +#define A1_SRC1_TYPE_SHIFT 13 +#define A1_SRC1_NR_SHIFT 8 +#define A1_SRC1_CHANNEL_X_NEGATE (1<<7) +#define A1_SRC1_CHANNEL_X_SHIFT 4 +#define A1_SRC1_CHANNEL_Y_NEGATE (1<<3) +#define A1_SRC1_CHANNEL_Y_SHIFT 0 + +#define A2_SRC1_CHANNEL_Z_NEGATE (1<<31) +#define A2_SRC1_CHANNEL_Z_SHIFT 28 +#define A2_SRC1_CHANNEL_W_NEGATE (1<<27) +#define A2_SRC1_CHANNEL_W_SHIFT 24 +#define A2_SRC2_TYPE_SHIFT 21 +#define A2_SRC2_NR_SHIFT 16 +#define A2_SRC2_CHANNEL_X_NEGATE (1<<15) +#define A2_SRC2_CHANNEL_X_SHIFT 12 +#define A2_SRC2_CHANNEL_Y_NEGATE (1<<11) +#define A2_SRC2_CHANNEL_Y_SHIFT 8 +#define A2_SRC2_CHANNEL_Z_NEGATE (1<<7) +#define A2_SRC2_CHANNEL_Z_SHIFT 4 +#define A2_SRC2_CHANNEL_W_NEGATE (1<<3) +#define A2_SRC2_CHANNEL_W_SHIFT 0 + +/* Texture instructions */ +#define T0_TEXLD (0x15<<24) /* Sample texture using predeclared + * sampler and address, and output + * filtered texel data to destination + * register */ +#define T0_TEXLDP (0x16<<24) /* Same as texld but performs a + * perspective divide of the texture + * coordinate .xyz values by .w before + * sampling. */ +#define T0_TEXLDB (0x17<<24) /* Same as texld but biases the + * computed LOD by w. Only S4.6 two's + * comp is used. This implies that a + * float to fixed conversion is + * done. */ +#define T0_TEXKILL (0x18<<24) /* Does not perform a sampling + * operation. Simply kills the pixel + * if any channel of the address + * register is < 0.0. */ +#define T0_DEST_TYPE_SHIFT 19 +/* Allow: R, OC, OD, U */ +/* Note: U (unpreserved) regs do not retain their values between + * phases (cannot be used for feedback) + * + * Note: oC and OD registers can only be used as the destination of a + * texture instruction once per phase (this is an implementation + * restriction). + */ +#define T0_DEST_NR_SHIFT 14 +/* Allow R: 0..15, OC,OD: 0..0, U: 0..2 */ +#define T0_SAMPLER_NR_SHIFT 0 /* This field ignored for TEXKILL */ +#define T0_SAMPLER_NR_MASK (0xf<<0) + +#define T1_ADDRESS_REG_TYPE_SHIFT 24 /* Reg to use as texture coord */ +/* Allow R, T, OC, OD -- R, OC, OD are 'dependent' reads, new program phase */ +#define T1_ADDRESS_REG_NR_SHIFT 17 +#define T2_MBZ 0 + +/* Declaration instructions */ +#define D0_DCL (0x19<<24) /* Declare a t (interpolated attrib) + * register or an s (sampler) + * register. */ +#define D0_SAMPLE_TYPE_SHIFT 22 +#define D0_SAMPLE_TYPE_2D (0x0<<22) +#define D0_SAMPLE_TYPE_CUBE (0x1<<22) +#define D0_SAMPLE_TYPE_VOLUME (0x2<<22) +#define D0_SAMPLE_TYPE_MASK (0x3<<22) + +#define D0_TYPE_SHIFT 19 +/* Allow: T, S */ +#define D0_NR_SHIFT 14 +/* Allow T: 0..10, S: 0..15 */ +#define D0_CHANNEL_X (1<<10) +#define D0_CHANNEL_Y (2<<10) +#define D0_CHANNEL_Z (4<<10) +#define D0_CHANNEL_W (8<<10) +#define D0_CHANNEL_ALL (0xf<<10) +#define D0_CHANNEL_NONE (0<<10) + +#define D0_CHANNEL_XY (D0_CHANNEL_X|D0_CHANNEL_Y) +#define D0_CHANNEL_XYZ (D0_CHANNEL_XY|D0_CHANNEL_Z) + +/* I915 Errata: Do not allow (xz), (xw), (xzw) combinations for diffuse + * or specular declarations. + * + * For T dcls, only allow: (x), (xy), (xyz), (w), (xyzw) + * + * Must be zero for S (sampler) dcls + */ +#define D1_MBZ 0 +#define D2_MBZ 0 + + +/* MASK_* are the unshifted bitmasks of the destination mask in arithmetic + * operations + */ +#define MASK_X 0x1 +#define MASK_Y 0x2 +#define MASK_Z 0x4 +#define MASK_W 0x8 +#define MASK_XYZ (MASK_X | MASK_Y | MASK_Z) +#define MASK_XYZW (MASK_XYZ | MASK_W) +#define MASK_SATURATE 0x10 + +/* Temporary, undeclared regs. Preserved between phases */ +#define FS_R0 ((REG_TYPE_R << REG_TYPE_SHIFT) | 0) +#define FS_R1 ((REG_TYPE_R << REG_TYPE_SHIFT) | 1) +#define FS_R2 ((REG_TYPE_R << REG_TYPE_SHIFT) | 2) +#define FS_R3 ((REG_TYPE_R << REG_TYPE_SHIFT) | 3) + +/* Texture coordinate regs. Must be declared. */ +#define FS_T0 ((REG_TYPE_T << REG_TYPE_SHIFT) | 0) +#define FS_T1 ((REG_TYPE_T << REG_TYPE_SHIFT) | 1) +#define FS_T2 ((REG_TYPE_T << REG_TYPE_SHIFT) | 2) +#define FS_T3 ((REG_TYPE_T << REG_TYPE_SHIFT) | 3) +#define FS_T4 ((REG_TYPE_T << REG_TYPE_SHIFT) | 4) +#define FS_T5 ((REG_TYPE_T << REG_TYPE_SHIFT) | 5) +#define FS_T6 ((REG_TYPE_T << REG_TYPE_SHIFT) | 6) +#define FS_T7 ((REG_TYPE_T << REG_TYPE_SHIFT) | 7) +#define FS_T8 ((REG_TYPE_T << REG_TYPE_SHIFT) | 8) +#define FS_T9 ((REG_TYPE_T << REG_TYPE_SHIFT) | 9) +#define FS_T10 ((REG_TYPE_T << REG_TYPE_SHIFT) | 10) + +/* Constant values */ +#define FS_C0 ((REG_TYPE_CONST << REG_TYPE_SHIFT) | 0) +#define FS_C1 ((REG_TYPE_CONST << REG_TYPE_SHIFT) | 1) +#define FS_C2 ((REG_TYPE_CONST << REG_TYPE_SHIFT) | 2) +#define FS_C3 ((REG_TYPE_CONST << REG_TYPE_SHIFT) | 3) +#define FS_C4 ((REG_TYPE_CONST << REG_TYPE_SHIFT) | 4) +#define FS_C5 ((REG_TYPE_CONST << REG_TYPE_SHIFT) | 5) +#define FS_C6 ((REG_TYPE_CONST << REG_TYPE_SHIFT) | 6) +#define FS_C7 ((REG_TYPE_CONST << REG_TYPE_SHIFT) | 7) + +/* Sampler regs */ +#define FS_S0 ((REG_TYPE_S << REG_TYPE_SHIFT) | 0) +#define FS_S1 ((REG_TYPE_S << REG_TYPE_SHIFT) | 1) +#define FS_S2 ((REG_TYPE_S << REG_TYPE_SHIFT) | 2) +#define FS_S3 ((REG_TYPE_S << REG_TYPE_SHIFT) | 3) + +/* Output color */ +#define FS_OC ((REG_TYPE_OC << REG_TYPE_SHIFT) | 0) + +/* Output depth */ +#define FS_OD ((REG_TYPE_OD << REG_TYPE_SHIFT) | 0) + +/* Unpreserved temporary regs */ +#define FS_U0 ((REG_TYPE_U << REG_TYPE_SHIFT) | 0) +#define FS_U1 ((REG_TYPE_U << REG_TYPE_SHIFT) | 1) +#define FS_U2 ((REG_TYPE_U << REG_TYPE_SHIFT) | 2) +#define FS_U3 ((REG_TYPE_U << REG_TYPE_SHIFT) | 3) + +#define X_CHANNEL_SHIFT (REG_TYPE_SHIFT + 3) +#define Y_CHANNEL_SHIFT (X_CHANNEL_SHIFT + 4) +#define Z_CHANNEL_SHIFT (Y_CHANNEL_SHIFT + 4) +#define W_CHANNEL_SHIFT (Z_CHANNEL_SHIFT + 4) + +#define REG_CHANNEL_MASK 0xf + +#define REG_NR(reg) ((reg) & REG_NR_MASK) +#define REG_TYPE(reg) (((reg) >> REG_TYPE_SHIFT) & REG_TYPE_MASK) +#define REG_X(reg) (((reg) >> X_CHANNEL_SHIFT) & REG_CHANNEL_MASK) +#define REG_Y(reg) (((reg) >> Y_CHANNEL_SHIFT) & REG_CHANNEL_MASK) +#define REG_Z(reg) (((reg) >> Z_CHANNEL_SHIFT) & REG_CHANNEL_MASK) +#define REG_W(reg) (((reg) >> W_CHANNEL_SHIFT) & REG_CHANNEL_MASK) + +enum i915_fs_channel { + X_CHANNEL_VAL = 0, + Y_CHANNEL_VAL, + Z_CHANNEL_VAL, + W_CHANNEL_VAL, + ZERO_CHANNEL_VAL, + ONE_CHANNEL_VAL, + + NEG_X_CHANNEL_VAL = X_CHANNEL_VAL | 0x8, + NEG_Y_CHANNEL_VAL = Y_CHANNEL_VAL | 0x8, + NEG_Z_CHANNEL_VAL = Z_CHANNEL_VAL | 0x8, + NEG_W_CHANNEL_VAL = W_CHANNEL_VAL | 0x8, + NEG_ONE_CHANNEL_VAL = ONE_CHANNEL_VAL | 0x8 +}; + +#define i915_fs_operand(reg, x, y, z, w) \ + (reg) | \ + (x##_CHANNEL_VAL << X_CHANNEL_SHIFT) | \ + (y##_CHANNEL_VAL << Y_CHANNEL_SHIFT) | \ + (z##_CHANNEL_VAL << Z_CHANNEL_SHIFT) | \ + (w##_CHANNEL_VAL << W_CHANNEL_SHIFT) + +/* + * Construct an operand description for using a register with no swizzling + */ +#define i915_fs_operand_reg(reg) \ + i915_fs_operand(reg, X, Y, Z, W) + +#define i915_fs_operand_reg_negate(reg) \ + i915_fs_operand(reg, NEG_X, NEG_Y, NEG_Z, NEG_W) + +/* + * Returns an operand containing (0.0, 0.0, 0.0, 0.0). + */ +#define i915_fs_operand_zero() i915_fs_operand(FS_R0, ZERO, ZERO, ZERO, ZERO) + +/* + * Returns an unused operand + */ +#define i915_fs_operand_none() i915_fs_operand_zero() + +/* + * Returns an operand containing (1.0, 1.0, 1.0, 1.0). + */ +#define i915_fs_operand_one() i915_fs_operand(FS_R0, ONE, ONE, ONE, ONE) + +#define i915_get_hardware_channel_val(val, shift, negate) \ + (((val & 0x7) << shift) | ((val & 0x8) ? negate : 0)) + +/* + * Outputs a fragment shader command to declare a sampler or texture register. + */ +#define i915_fs_dcl(reg) \ +do { \ + OUT_DWORD (D0_DCL | \ + (REG_TYPE(reg) << D0_TYPE_SHIFT) | \ + (REG_NR(reg) << D0_NR_SHIFT) | \ + ((REG_TYPE(reg) != REG_TYPE_S) ? D0_CHANNEL_ALL : 0)); \ + OUT_DWORD (0); \ + OUT_DWORD (0); \ +} while (0) + +#define i915_fs_texld(dest_reg, sampler_reg, address_reg) \ +do { \ + OUT_DWORD (T0_TEXLD | \ + (REG_TYPE(dest_reg) << T0_DEST_TYPE_SHIFT) | \ + (REG_NR(dest_reg) << T0_DEST_NR_SHIFT) | \ + (REG_NR(sampler_reg) << T0_SAMPLER_NR_SHIFT)); \ + OUT_DWORD((REG_TYPE(address_reg) << T1_ADDRESS_REG_TYPE_SHIFT) | \ + (REG_NR(address_reg) << T1_ADDRESS_REG_NR_SHIFT)); \ + OUT_DWORD (0); \ +} while (0) + +#define i915_fs_arith_masked(op, dest_reg, dest_mask, operand0, operand1, operand2) \ + _i915_fs_arith_masked(A0_##op, dest_reg, dest_mask, operand0, operand1, operand2) + +#define i915_fs_arith(op, dest_reg, operand0, operand1, operand2) \ + _i915_fs_arith(A0_##op, dest_reg, operand0, operand1, operand2) + +#define _i915_fs_arith_masked(cmd, dest_reg, dest_mask, operand0, operand1, operand2) \ +do { \ + /* Set up destination register and write mask */ \ + OUT_DWORD (cmd | \ + (REG_TYPE(dest_reg) << A0_DEST_TYPE_SHIFT) | \ + (REG_NR(dest_reg) << A0_DEST_NR_SHIFT) | \ + (((dest_mask) & ~MASK_SATURATE) << A0_DEST_CHANNEL_SHIFT) | \ + (((dest_mask) & MASK_SATURATE) ? A0_DEST_SATURATE : 0) | \ + /* Set up operand 0 */ \ + (REG_TYPE(operand0) << A0_SRC0_TYPE_SHIFT) | \ + (REG_NR(operand0) << A0_SRC0_NR_SHIFT)); \ + OUT_DWORD (i915_get_hardware_channel_val(REG_X(operand0), \ + A1_SRC0_CHANNEL_X_SHIFT, \ + A1_SRC0_CHANNEL_X_NEGATE) | \ + i915_get_hardware_channel_val(REG_Y(operand0), \ + A1_SRC0_CHANNEL_Y_SHIFT, \ + A1_SRC0_CHANNEL_Y_NEGATE) | \ + i915_get_hardware_channel_val(REG_Z(operand0), \ + A1_SRC0_CHANNEL_Z_SHIFT, \ + A1_SRC0_CHANNEL_Z_NEGATE) | \ + i915_get_hardware_channel_val(REG_W(operand0), \ + A1_SRC0_CHANNEL_W_SHIFT, \ + A1_SRC0_CHANNEL_W_NEGATE) | \ + /* Set up operand 1 */ \ + (REG_TYPE(operand1) << A1_SRC1_TYPE_SHIFT) | \ + (REG_NR(operand1) << A1_SRC1_NR_SHIFT) | \ + i915_get_hardware_channel_val(REG_X(operand1), \ + A1_SRC1_CHANNEL_X_SHIFT, \ + A1_SRC1_CHANNEL_X_NEGATE) | \ + i915_get_hardware_channel_val(REG_Y(operand1), \ + A1_SRC1_CHANNEL_Y_SHIFT, \ + A1_SRC1_CHANNEL_Y_NEGATE)); \ + OUT_DWORD (i915_get_hardware_channel_val(REG_Z(operand1), \ + A2_SRC1_CHANNEL_Z_SHIFT, \ + A2_SRC1_CHANNEL_Z_NEGATE) | \ + i915_get_hardware_channel_val(REG_W(operand1), \ + A2_SRC1_CHANNEL_W_SHIFT, \ + A2_SRC1_CHANNEL_W_NEGATE) | \ + /* Set up operand 2 */ \ + (REG_TYPE(operand2) << A2_SRC2_TYPE_SHIFT) | \ + (REG_NR(operand2) << A2_SRC2_NR_SHIFT) | \ + i915_get_hardware_channel_val(REG_X(operand2), \ + A2_SRC2_CHANNEL_X_SHIFT, \ + A2_SRC2_CHANNEL_X_NEGATE) | \ + i915_get_hardware_channel_val(REG_Y(operand2), \ + A2_SRC2_CHANNEL_Y_SHIFT, \ + A2_SRC2_CHANNEL_Y_NEGATE) | \ + i915_get_hardware_channel_val(REG_Z(operand2), \ + A2_SRC2_CHANNEL_Z_SHIFT, \ + A2_SRC2_CHANNEL_Z_NEGATE) | \ + i915_get_hardware_channel_val(REG_W(operand2), \ + A2_SRC2_CHANNEL_W_SHIFT, \ + A2_SRC2_CHANNEL_W_NEGATE)); \ +} while (0) + +#define _i915_fs_arith(cmd, dest_reg, operand0, operand1, operand2) do {\ + /* Set up destination register and write mask */ \ + OUT_DWORD (cmd | \ + (REG_TYPE(dest_reg) << A0_DEST_TYPE_SHIFT) | \ + (REG_NR(dest_reg) << A0_DEST_NR_SHIFT) | \ + (A0_DEST_CHANNEL_ALL) | \ + /* Set up operand 0 */ \ + (REG_TYPE(operand0) << A0_SRC0_TYPE_SHIFT) | \ + (REG_NR(operand0) << A0_SRC0_NR_SHIFT)); \ + OUT_DWORD (i915_get_hardware_channel_val(REG_X(operand0), \ + A1_SRC0_CHANNEL_X_SHIFT, \ + A1_SRC0_CHANNEL_X_NEGATE) | \ + i915_get_hardware_channel_val(REG_Y(operand0), \ + A1_SRC0_CHANNEL_Y_SHIFT, \ + A1_SRC0_CHANNEL_Y_NEGATE) | \ + i915_get_hardware_channel_val(REG_Z(operand0), \ + A1_SRC0_CHANNEL_Z_SHIFT, \ + A1_SRC0_CHANNEL_Z_NEGATE) | \ + i915_get_hardware_channel_val(REG_W(operand0), \ + A1_SRC0_CHANNEL_W_SHIFT, \ + A1_SRC0_CHANNEL_W_NEGATE) | \ + /* Set up operand 1 */ \ + (REG_TYPE(operand1) << A1_SRC1_TYPE_SHIFT) | \ + (REG_NR(operand1) << A1_SRC1_NR_SHIFT) | \ + i915_get_hardware_channel_val(REG_X(operand1), \ + A1_SRC1_CHANNEL_X_SHIFT, \ + A1_SRC1_CHANNEL_X_NEGATE) | \ + i915_get_hardware_channel_val(REG_Y(operand1), \ + A1_SRC1_CHANNEL_Y_SHIFT, \ + A1_SRC1_CHANNEL_Y_NEGATE)); \ + OUT_DWORD (i915_get_hardware_channel_val(REG_Z(operand1), \ + A2_SRC1_CHANNEL_Z_SHIFT, \ + A2_SRC1_CHANNEL_Z_NEGATE) | \ + i915_get_hardware_channel_val(REG_W(operand1), \ + A2_SRC1_CHANNEL_W_SHIFT, \ + A2_SRC1_CHANNEL_W_NEGATE) | \ + /* Set up operand 2 */ \ + (REG_TYPE(operand2) << A2_SRC2_TYPE_SHIFT) | \ + (REG_NR(operand2) << A2_SRC2_NR_SHIFT) | \ + i915_get_hardware_channel_val(REG_X(operand2), \ + A2_SRC2_CHANNEL_X_SHIFT, \ + A2_SRC2_CHANNEL_X_NEGATE) | \ + i915_get_hardware_channel_val(REG_Y(operand2), \ + A2_SRC2_CHANNEL_Y_SHIFT, \ + A2_SRC2_CHANNEL_Y_NEGATE) | \ + i915_get_hardware_channel_val(REG_Z(operand2), \ + A2_SRC2_CHANNEL_Z_SHIFT, \ + A2_SRC2_CHANNEL_Z_NEGATE) | \ + i915_get_hardware_channel_val(REG_W(operand2), \ + A2_SRC2_CHANNEL_W_SHIFT, \ + A2_SRC2_CHANNEL_W_NEGATE)); \ +} while (0) + +#define i915_fs_mov(dest_reg, operand0) \ + i915_fs_arith(MOV, dest_reg, \ + operand0, \ + i915_fs_operand_none(), \ + i915_fs_operand_none()) + +#define i915_fs_mov_masked(dest_reg, dest_mask, operand0) \ + i915_fs_arith_masked (MOV, dest_reg, dest_mask, \ + operand0, \ + i915_fs_operand_none(), \ + i915_fs_operand_none()) + + +#define i915_fs_frc(dest_reg, operand0) \ + i915_fs_arith (FRC, dest_reg, \ + operand0, \ + i915_fs_operand_none(), \ + i915_fs_operand_none()) + +/* Add operand0 and operand1 and put the result in dest_reg */ +#define i915_fs_add(dest_reg, operand0, operand1) \ + i915_fs_arith (ADD, dest_reg, \ + operand0, operand1, \ + i915_fs_operand_none()) + +/* Multiply operand0 and operand1 and put the result in dest_reg */ +#define i915_fs_mul(dest_reg, operand0, operand1) \ + i915_fs_arith (MUL, dest_reg, \ + operand0, operand1, \ + i915_fs_operand_none()) + +/* Computes 1/sqrt(operand0.replicate_swizzle) puts the result in dest_reg */ +#define i915_fs_rsq(dest_reg, dest_mask, operand0) \ +do { \ + if (dest_mask) { \ + i915_fs_arith_masked (RSQ, dest_reg, dest_mask, \ + operand0, \ + i915_fs_operand_none (), \ + i915_fs_operand_none ()); \ + } else { \ + i915_fs_arith (RSQ, dest_reg, \ + operand0, \ + i915_fs_operand_none (), \ + i915_fs_operand_none ()); \ + } \ +} while (0) + +/* Puts the minimum of operand0 and operand1 in dest_reg */ +#define i915_fs_min(dest_reg, operand0, operand1) \ + i915_fs_arith (MIN, dest_reg, \ + operand0, operand1, \ + i915_fs_operand_none()) + +/* Puts the maximum of operand0 and operand1 in dest_reg */ +#define i915_fs_max(dest_reg, operand0, operand1) \ + i915_fs_arith (MAX, dest_reg, \ + operand0, operand1, \ + i915_fs_operand_none()) + +#define i915_fs_cmp(dest_reg, operand0, operand1, operand2) \ + i915_fs_arith (CMP, dest_reg, operand0, operand1, operand2) + +/* Perform operand0 * operand1 + operand2 and put the result in dest_reg */ +#define i915_fs_mad(dest_reg, dest_mask, op0, op1, op2) \ +do { \ + if (dest_mask) { \ + i915_fs_arith_masked (MAD, dest_reg, dest_mask, op0, op1, op2); \ + } else { \ + i915_fs_arith (MAD, dest_reg, op0, op1, op2); \ + } \ +} while (0) + +#define i915_fs_dp2add(dest_reg, dest_mask, op0, op1, op2) \ +do { \ + if (dest_mask) { \ + i915_fs_arith_masked (DP2ADD, dest_reg, dest_mask, op0, op1, op2); \ + } else { \ + i915_fs_arith (DP2ADD, dest_reg, op0, op1, op2); \ + } \ +} while (0) + +/* + * Perform a 3-component dot-product of operand0 and operand1 and put the + * resulting scalar in the channels of dest_reg specified by the dest_mask. + */ +#define i915_fs_dp3(dest_reg, dest_mask, op0, op1) \ +do { \ + if (dest_mask) { \ + i915_fs_arith_masked (DP3, dest_reg, dest_mask, \ + op0, op1,\ + i915_fs_operand_none()); \ + } else { \ + i915_fs_arith (DP3, dest_reg, op0, op1,\ + i915_fs_operand_none()); \ + } \ +} while (0) + +static inline uint32_t cairo_const +i915_fs_operand_pure_alpha (int pure) +{ + if (pure & (1 << 3)) + return i915_fs_operand_one (); + else + return i915_fs_operand_zero (); +} + +#define I915_TILING_DEFAULT I915_TILING_Y +#define I915_BO_CACHE_BUCKETS 13 /* cache surfaces up to 16 MiB */ + +typedef struct i915_surface i915_surface_t; +typedef struct i915_device i915_device_t; +typedef struct i915_shader i915_shader_t; + +typedef void (*i915_add_rectangle_func_t) (const i915_shader_t *shader, + int x, int y, + int w, int h); + +#define IMAGE_CACHE_WIDTH 1024 +#define IMAGE_CACHE_HEIGHT 1024 + +typedef struct i915_image_private { + cairo_rtree_node_t node; + intel_buffer_cache_t *container; +} i915_image_private_t; + +#define I915_BATCH_SIZE (128*1024) +#define I915_VBO_SIZE (512*1024) +#define I915_MAX_RELOCS 2048 + +enum { + I915_DEBUG_EXEC = 0x1, + I915_DEBUG_SYNC = 0x2, + I915_DEBUG_BATCH = 0x4, + I915_DEBUG_BUFFER = 0x8, + I915_DEBUG_BUFFER_CACHE = 0x10, + I915_DEBUG_BUFFER_ALLOC = 0x20, + I915_DEBUG_GLYPHS = 0x40, + I915_DEBUG_MAP = 0x80, + I915_DEBUG_THROTTLE = 0x100, +}; + +struct i915_device { + intel_device_t intel; + + cairo_bool_t debug; + + i915_shader_t *shader; /* note: only valid during geometry emission */ + + struct i915_batch { + intel_bo_t *target_bo[I915_MAX_RELOCS]; + size_t gtt_avail_size; + size_t est_gtt_size; + size_t total_gtt_size; + + uint16_t fences; + uint16_t fences_avail; + uint16_t reloc_count; + uint16_t exec_count; + uint16_t used; + + struct drm_i915_gem_exec_object2 exec[I915_MAX_RELOCS]; + struct drm_i915_gem_relocation_entry reloc[I915_MAX_RELOCS]; + } batch; + + uint32_t vbo; + uint32_t vbo_offset; + uint32_t vbo_used; + uint32_t vbo_max_index; + uint32_t vertex_index; + uint32_t vertex_count; + uint32_t floats_per_vertex; + uint32_t rectangle_size; + intel_bo_t *last_vbo; + uint32_t last_vbo_offset; + uint32_t last_vbo_space; + + i915_surface_t *current_target; + uint32_t current_size; + uint32_t current_diffuse; + uint32_t current_colorbuf; + uint32_t *current_source; + uint32_t *current_mask; + uint32_t *current_clip; + uint32_t current_program; + uint32_t current_texcoords; + uint32_t current_blend; + uint32_t current_constants[8*4]; + uint32_t current_n_constants; + uint32_t current_samplers[2*4]; + uint32_t current_maps[4*4]; + uint32_t current_n_samplers; + uint32_t current_n_maps; + uint32_t last_source_fragment; + uint32_t clear_alpha; + + cairo_list_t image_caches[2]; + + uint32_t batch_header[13]; + uint32_t batch_base[I915_BATCH_SIZE / sizeof (uint32_t)]; + uint8_t vbo_base[I915_VBO_SIZE]; +}; + +enum { + CURRENT_SOURCE = 0x1, + CURRENT_MASK = 0x2, + CURRENT_CLIP = 0x4 +}; + +typedef enum { + VS_ZERO, + VS_CONSTANT, + VS_LINEAR, + VS_TEXTURE, + VS_TEXTURE_16, +} i915_vertex_shader_t; + +typedef enum { + FS_ZERO, + FS_ONE, + FS_PURE, + FS_CONSTANT, + FS_DIFFUSE, + FS_LINEAR, + FS_RADIAL, + FS_TEXTURE, + FS_YUV, + FS_SPANS, +} i915_fragment_shader_t; + +#define FS_DETAILS_SHIFT 4 + +typedef enum { + PATTERN_BASE, + PATTERN_CONSTANT, + PATTERN_LINEAR, + PATTERN_RADIAL, + PATTERN_TEXTURE, +} i915_shader_channel_t; + +struct i915_surface { + intel_surface_t intel; + + uint32_t map0, map1; + uint32_t colorbuf; + + cairo_bool_t deferred_clear; + uint32_t offset; + uint32_t is_current_texture; + + i915_image_private_t *cache; + + intel_bo_t *stencil; + uint32_t stencil_stride; + uint32_t stencil_offset; +}; + +typedef enum { + NONE = 0, + YUV_I420, + /* XXX */ + YUV_YV12, + YUV_YUY2, + YUV_UYVY, +} i915_packed_pixel_t; + +/* read-only container */ +#define I915_PACKED_PIXEL_SURFACE_TYPE 0x1000 +typedef struct i915_packed_pixel_surface { + cairo_surface_t base; + + i915_packed_pixel_t pixel; + + i915_device_t *device; + intel_bo_t *bo; + uint32_t is_current_texture; + + uint32_t offset[4]; + uint32_t stride[4]; + uint32_t width[4]; + uint32_t height[4]; + uint32_t map0[4], map1[4]; +} i915_packed_pixel_surface_t; + +struct i915_shader { + i915_device_t *device; + i915_surface_t *target; + + cairo_operator_t op; + uint32_t blend; + float opacity; + cairo_content_t content; + + cairo_bool_t committed; + cairo_bool_t need_combine; + + i915_add_rectangle_func_t add_rectangle; + + union i915_shader_channel { + struct { + i915_vertex_shader_t vertex; + i915_fragment_shader_t fragment; + i915_shader_channel_t pattern; + } type; + struct i915_shader_base { + i915_vertex_shader_t vertex; + i915_fragment_shader_t fragment; + i915_shader_channel_t pattern; + uint32_t texfmt; + cairo_content_t content; + uint32_t mode; + intel_bo_t *bo; + uint32_t n_samplers; + uint32_t offset[4]; + uint32_t map[2*4]; + uint32_t sampler[2]; + cairo_matrix_t matrix; + } base; + struct i915_shader_solid { + struct i915_shader_base base; + cairo_color_t color; + int pure; + } solid; + struct i915_shader_linear { + struct i915_shader_base base; + struct { + float red, green, blue, alpha; + } color0, color1; + float dx, dy, offset; + } linear; + struct i915_shader_radial { + struct i915_shader_base base; + float constants[8]; + } radial; + struct i915_shader_surface { + struct i915_shader_base base; + i915_packed_pixel_t pixel; + } surface; + } source, mask, clip, dst; + + jmp_buf unwind; +}; + +enum i915_shader_linear_mode { + /* XXX REFLECT */ + LINEAR_TEXTURE, + LINEAR_NONE, + LINEAR_REPEAT, + LINEAR_PAD, +}; + +enum i915_shader_radial_mode { + RADIAL_ONE, + RADIAL_TWO +}; + +typedef cairo_status_t +(*i915_spans_func_t) (void *closure, + cairo_span_renderer_t *renderer, + const cairo_rectangle_int_t *extents); + +cairo_private cairo_status_t +i915_clip_and_composite_spans (i915_surface_t *dst, + cairo_operator_t op, + const cairo_pattern_t *pattern, + cairo_antialias_t antialias, + i915_spans_func_t draw_func, + void *draw_closure, + const cairo_composite_rectangles_t*extents, + cairo_clip_t *clip, + double opacity); + +cairo_private cairo_surface_t * +i915_surface_create_internal (cairo_drm_device_t *base_dev, + cairo_format_t format, + int width, int height, + uint32_t tiling, + cairo_bool_t gpu_target); + +cairo_private i915_surface_t * +i915_surface_create_from_cacheable_image_internal (i915_device_t *device, + cairo_image_surface_t *image); + +cairo_private void +i915_surface_scaled_font_fini (cairo_scaled_font_t *scaled_font); + +cairo_private cairo_int_status_t +i915_surface_glyphs (void *abstract_surface, + cairo_operator_t op, + const cairo_pattern_t *source, + cairo_glyph_t *glyphs, + int num_glyphs, + cairo_scaled_font_t *scaled_font, + cairo_clip_t *clip, + int *num_remaining); + +static inline int cairo_const +i915_tiling_height (uint32_t tiling, int height) +{ + switch (tiling) { + default: + case I915_TILING_NONE: return (height + 1) & -2; + case I915_TILING_X: return (height + 7) & -8; + case I915_TILING_Y: return (height + 31) & -32; + } +} + +static inline uint32_t cairo_const +i915_tiling_stride (int format, uint32_t stride) +{ + uint32_t tile_width; + + /* use 64B alignment so that the buffer may be used as a scanout */ + if (format == I915_TILING_NONE) + return (stride + 63) & -64; + + tile_width = 512; + /* XXX Currently the kernel enforces a tile_width of 512 for TILING_Y. + + <jbarnes> the docs are a bit confused on that front + <jbarnes> once we enable it on 915 we'll find out what the tile width size should be in the fence setup + <jbarnes> it could be that 915 has y tiling but that the minimum width is 512 or something + <jbarnes> yeah it's probably 128 on 915 also + <jbarnes> it's just that we haven't tested + <jbarnes> but I wasn't thinking that the tile widths were the same + <jbarnes> only that in order to fence y tiles on 915 you needed pitch to be a multiple of 4 y tiles (or something like that) + + tile_width = format == I915_TILING_Y ? 128 : 512; + */ + + /* needs a pot tile width */ + while (tile_width < stride) + tile_width <<= 1; + + return tile_width; +} + +static inline uint32_t cairo_const +i915_tiling_size (uint32_t tiling, uint32_t size) +{ + uint32_t fence; + + if (tiling == I915_TILING_NONE) + return (size + 4095) & -4096; + + fence = 1024 * 1024; /* 1 MiB */ + while (fence < size) + fence <<= 1; + + return fence; +} + +static inline cairo_bool_t cairo_const +i915_texture_filter_is_nearest (cairo_filter_t filter) +{ + switch (filter) { + case CAIRO_FILTER_BEST: + case CAIRO_FILTER_GOOD: + case CAIRO_FILTER_BILINEAR: + case CAIRO_FILTER_GAUSSIAN: + return FALSE; + default: + case CAIRO_FILTER_FAST: + case CAIRO_FILTER_NEAREST: + return TRUE; + } +} + +static inline uint32_t cairo_const +i915_texture_filter (cairo_filter_t filter) +{ + switch (filter) { + case CAIRO_FILTER_BEST: + case CAIRO_FILTER_GOOD: + case CAIRO_FILTER_BILINEAR: + case CAIRO_FILTER_GAUSSIAN: + return + (FILTER_LINEAR << SS2_MAG_FILTER_SHIFT) | + (FILTER_LINEAR << SS2_MIN_FILTER_SHIFT); + default: + case CAIRO_FILTER_FAST: + case CAIRO_FILTER_NEAREST: + return + (FILTER_NEAREST << SS2_MAG_FILTER_SHIFT) | + (FILTER_NEAREST << SS2_MIN_FILTER_SHIFT); + } +} + +static inline uint32_t cairo_const +i915_texture_extend (cairo_extend_t extend) +{ + switch (extend) { + default: + case CAIRO_EXTEND_NONE: + return + (TEXCOORDMODE_CLAMP_BORDER << SS3_TCX_ADDR_MODE_SHIFT) | + (TEXCOORDMODE_CLAMP_BORDER << SS3_TCY_ADDR_MODE_SHIFT); + case CAIRO_EXTEND_REPEAT: + return + (TEXCOORDMODE_WRAP << SS3_TCX_ADDR_MODE_SHIFT) | + (TEXCOORDMODE_WRAP << SS3_TCY_ADDR_MODE_SHIFT); + case CAIRO_EXTEND_PAD: + return + (TEXCOORDMODE_CLAMP_EDGE << SS3_TCX_ADDR_MODE_SHIFT) | + (TEXCOORDMODE_CLAMP_EDGE << SS3_TCY_ADDR_MODE_SHIFT); + case CAIRO_EXTEND_REFLECT: + return + (TEXCOORDMODE_MIRROR << SS3_TCX_ADDR_MODE_SHIFT) | + (TEXCOORDMODE_MIRROR << SS3_TCY_ADDR_MODE_SHIFT); + } +} + +static inline uint32_t cairo_const +BUF_tiling (uint32_t tiling) +{ + switch (tiling) { + default: + case I915_TILING_NONE: return 0; + case I915_TILING_X: return BUF_3D_TILED_SURFACE | BUF_3D_TILE_WALK_X; + case I915_TILING_Y: return BUF_3D_TILED_SURFACE | BUF_3D_TILE_WALK_Y; + } +} + +#define OUT_DWORD(dword) i915_batch_emit_dword (device, dword) +#define OUT_RELOC(surface, read, write) i915_batch_emit_reloc (device, to_intel_bo (surface->intel.drm.bo), surface->offset, read, write, FALSE) +#define OUT_RELOC_FENCED(surface, read, write) i915_batch_emit_reloc (device, to_intel_bo (surface->intel.drm.bo), surface->offset, read, write, TRUE) + +#define FS_LOCALS \ + uint32_t *_shader_start + +#define FS_BEGIN() \ +do { \ + _shader_start = BATCH_PTR (device); \ + OUT_DWORD (_3DSTATE_PIXEL_SHADER_PROGRAM); \ +} while (0) + +#define FS_END() \ +do { \ + *_shader_start |= BATCH_PTR (device) - _shader_start - 2; \ +} while (0); + +static inline int32_t +i915_batch_space (i915_device_t *device) +{ + /* leave room for RECTLIST(4) + MI_BUFFER_END + MI_NOOP */ + return sizeof (device->batch_base) - (device->batch.used << 2) - 32; +} + +static inline cairo_bool_t +i915_check_aperture_size (const i915_device_t *device, int relocs, size_t est_size, size_t size) +{ + return device->batch.reloc_count + relocs < I915_MAX_RELOCS - 2 && + device->batch.est_gtt_size + est_size <= device->batch.gtt_avail_size && + device->batch.total_gtt_size + size <= device->intel.gtt_avail_size; +} + +static inline cairo_bool_t +i915_check_aperture (const i915_device_t *device, intel_bo_t **bo_array, int count) +{ + uint32_t relocs = 0, est_size = 0, size = 0; + + while (count--) { + const intel_bo_t *bo = *bo_array++; + if (bo->exec == NULL) { + relocs++; + size += bo->base.size; + if (!bo->busy) + est_size += bo->base.size; + } + } + + return i915_check_aperture_size (device, relocs, est_size, size); +} + +static inline cairo_bool_t +i915_check_aperture_and_fences (const i915_device_t *device, intel_bo_t **bo_array, int count) +{ + uint32_t relocs = 0, est_size = 0, size = 0; + uint32_t fences = 0; + + while (count--) { + const intel_bo_t *bo = *bo_array++; + if (bo->exec == NULL) { + relocs++; + size += bo->base.size; + if (!bo->busy) + est_size += bo->base.size; + if (bo->tiling != I915_TILING_NONE) + fences++; + } else if (bo->tiling != I915_TILING_NONE) { + if ((bo->exec->flags & EXEC_OBJECT_NEEDS_FENCE) == 0) + fences++; + } + } + + return i915_check_aperture_size (device, relocs, est_size, size) && + device->batch.fences + fences <= device->batch.fences_avail; +} + +#define BATCH_PTR(device) &(device)->batch_base[(device)->batch.used] +static inline void +i915_batch_emit_dword (i915_device_t *device, uint32_t dword) +{ + device->batch_base[device->batch.used++] = dword; +} + +cairo_private void +i915_batch_add_reloc (i915_device_t *device, uint32_t pos, + intel_bo_t *bo, + uint32_t offset, + uint32_t read_domains, + uint32_t write_domain, + cairo_bool_t needs_fence); + +static inline void +i915_batch_fill_reloc (i915_device_t *device, uint32_t pos, + intel_bo_t *bo, + uint32_t offset, + uint32_t read_domains, + uint32_t write_domain) +{ + i915_batch_add_reloc (device, pos, + bo, offset, + read_domains, write_domain, + FALSE); + device->batch_base[pos] = bo->offset + offset; +} + +static inline void +i915_batch_emit_reloc (i915_device_t *device, + intel_bo_t *bo, + uint32_t offset, + uint32_t read_domains, + uint32_t write_domain, + cairo_bool_t needs_fence) +{ + i915_batch_add_reloc (device, device->batch.used, + bo, offset, + read_domains, write_domain, + needs_fence); + i915_batch_emit_dword (device, bo->offset + offset); +} + +cairo_private void +i915_vbo_flush (i915_device_t *device); + +cairo_private void +i915_vbo_finish (i915_device_t *device); + +cairo_private cairo_status_t +i915_batch_flush (i915_device_t *device); + +static inline float * +i915_add_rectangle (i915_device_t *device) +{ + float *vertices; + uint32_t size; + + assert (device->floats_per_vertex); + assert (device->rectangle_size == 3*device->floats_per_vertex*sizeof(float)); + + size = device->rectangle_size; + if (unlikely (device->vbo_offset + size > I915_VBO_SIZE)) + i915_vbo_finish (device); + + vertices = (float *) (device->vbo_base + device->vbo_offset); + device->vbo_used = device->vbo_offset += size; + device->vertex_count += 3; + return vertices; +} + +static inline i915_device_t * +i915_device (i915_surface_t *surface) +{ + return (i915_device_t *) surface->intel.drm.base.device; +} + +cairo_private cairo_status_t +i915_surface_clear (i915_surface_t *dst); + +cairo_private void +i915_set_dst (i915_device_t *device, i915_surface_t *dst); + +cairo_private void +i915_shader_init (i915_shader_t *shader, + i915_surface_t *dst, + cairo_operator_t op, + double opacity); + +cairo_private cairo_status_t +i915_shader_acquire_pattern (i915_shader_t *shader, + union i915_shader_channel *src, + const cairo_pattern_t *pattern, + const cairo_rectangle_int_t *extents); + +cairo_private void +i915_shader_set_clip (i915_shader_t *shader, + cairo_clip_t *clip); + +cairo_private int +i915_shader_num_texcoords (const i915_shader_t *shader); + +static inline double cairo_const +i915_shader_linear_texcoord (const struct i915_shader_linear *l, + double src_x, double src_y) +{ + return l->dx * src_x + l->dy * src_y + l->offset; +} + +cairo_private cairo_status_t +i915_shader_commit (i915_shader_t *shader, + i915_device_t *device); + +cairo_private void +i915_shader_fini (i915_shader_t *shader); + +cairo_private cairo_status_t +i915_fixup_unbounded (i915_surface_t *dst, + const cairo_composite_rectangles_t *extents, + cairo_clip_t *clip); + +static inline cairo_bool_t +i915_surface_needs_tiling (i915_surface_t *dst) +{ + return dst->intel.drm.width > 2048 || dst->intel.drm.height > 2048; +} + +cairo_private cairo_status_t +i915_surface_copy_subimage (i915_device_t *device, + i915_surface_t *src, + const cairo_rectangle_int_t *extents, + cairo_bool_t flush, + i915_surface_t **clone_out); + +static inline uint32_t +pack_float (float f) +{ + union { + float f; + uint32_t ui; + } t; + t.f = f; + return t.ui; +} + +static inline cairo_status_t +i915_surface_fallback_flush (i915_surface_t *surface) +{ + cairo_status_t status; + + if (unlikely (surface->intel.drm.fallback != NULL)) + return intel_surface_flush (&surface->intel, 0); + + status = CAIRO_STATUS_SUCCESS; + if (unlikely (surface->deferred_clear)) + status = i915_surface_clear (surface); + + return status; +} + +#endif /* CAIRO_DRM_I915_PRIVATE_H */ |